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EC number: 215-609-9 | CAS number: 1333-86-4
- Life Cycle description
- Uses advised against
- Endpoint summary
- Appearance / physical state / colour
- Melting point / freezing point
- Boiling point
- Density
- Particle size distribution (Granulometry)
- Vapour pressure
- Partition coefficient
- Water solubility
- Solubility in organic solvents / fat solubility
- Surface tension
- Flash point
- Auto flammability
- Flammability
- Explosiveness
- Oxidising properties
- Oxidation reduction potential
- Stability in organic solvents and identity of relevant degradation products
- Storage stability and reactivity towards container material
- Stability: thermal, sunlight, metals
- pH
- Dissociation constant
- Viscosity
- Additional physico-chemical information
- Additional physico-chemical properties of nanomaterials
- Nanomaterial agglomeration / aggregation
- Nanomaterial crystalline phase
- Nanomaterial crystallite and grain size
- Nanomaterial aspect ratio / shape
- Nanomaterial specific surface area
- Nanomaterial Zeta potential
- Nanomaterial surface chemistry
- Nanomaterial dustiness
- Nanomaterial porosity
- Nanomaterial pour density
- Nanomaterial photocatalytic activity
- Nanomaterial radical formation potential
- Nanomaterial catalytic activity
- Endpoint summary
- Stability
- Biodegradation
- Bioaccumulation
- Transport and distribution
- Environmental data
- Additional information on environmental fate and behaviour
- Ecotoxicological Summary
- Aquatic toxicity
- Endpoint summary
- Short-term toxicity to fish
- Long-term toxicity to fish
- Short-term toxicity to aquatic invertebrates
- Long-term toxicity to aquatic invertebrates
- Toxicity to aquatic algae and cyanobacteria
- Toxicity to aquatic plants other than algae
- Toxicity to microorganisms
- Endocrine disrupter testing in aquatic vertebrates – in vivo
- Toxicity to other aquatic organisms
- Sediment toxicity
- Terrestrial toxicity
- Biological effects monitoring
- Biotransformation and kinetics
- Additional ecotoxological information
- Toxicological Summary
- Toxicokinetics, metabolism and distribution
- Acute Toxicity
- Irritation / corrosion
- Sensitisation
- Repeated dose toxicity
- Genetic toxicity
- Carcinogenicity
- Toxicity to reproduction
- Specific investigations
- Exposure related observations in humans
- Toxic effects on livestock and pets
- Additional toxicological data
Identification
- Display Name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Type of Substance
- Composition:
- mono-constituent substance
- Origin:
- inorganic
Substance Identifiers open all close all
Compositions
Boundary Composition(s) open all close all
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- No surface treatment
Cross-referenceopen allclose all
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 188 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- ca. 18 - ca. 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Surface treated
Cross-referenceopen allclose all
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 87 nm
- Percentile:
- D90
- Range:
- > 15 - < 178 nm
- Additional information:
- Post-production, some nanoforms of the set carbon black (solid: nanoform, no surface treatment) are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black. These functional groups render these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- ca. 35 - ca. 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- solid: nanoform, no surface treatment
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- >= 95 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- >= 99.9 - <= 100 %
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- ca. 18 - ca. 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- other: solid: nanostructured material
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - < 43 nm
- Percentile:
- D50
- Range:
- > 7 - < 87 nm
- Percentile:
- D90
- Range:
- > 15 - < 178 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Surface treatmentsopen allclose all
- Surface treatment name:
- Oxidisation with N2O4 (NOx)
Surface treatment
- Order:
- #1
- External layer:
- hydrophobic
- Description:
- - Main features of the surface treatment/functionalisation process: Carried out in fluidized bed reactors. This is a two step process. Carbon black is oxidized with nitrogen oxide/air mixture. In the second step, NO2 absorbed on the surface of the carbon black is desorbed by treatment with hot air.
- the type of process/reaction: oxidization
- relevant ranges of process parameters such as reaction conditions (pH, temperature): between 200 -300°C
- any purification step: no
- Functionalities introduced by the treatment: Carboxylic, hydroxylic, lactonic, quinonic, basic oxides
Following the oxidisation procedure, the carbon black particles are subjected to a treatment with hot air; hot air (@ ca. 300°C) is blown for several hours through the layer of carbon black. This step removes any remnants of treatment agent that may have been trapped within the layers of carbon black during oxidation. - Percentage of coverage of particle surface, %:
- > 75
- Surface treatment name:
- Oxidisation with Nitric acid
Surface treatment
- Order:
- #1
- External layer:
- hydrophobic
- Description:
- - Main features of the surface treatment/functionalisation process: Nitric acid is added to pelletizing water. The carbon black is oxidized at elevated temperatures during drying. A second method is oxidization in a tubular kiln
- the type of process/reaction: oxidization
- relevant ranges of process parameters such as reaction conditions (pH, temperature): elevated temperature
- any purification step: no
- Functionalities introduced by the treatment: Carboxylic, hydroxylic, lactonic, quinonic, basic oxides
Following the oxidisation procedure, the carbon black particles are subjected to a treatment with hot air; hot air (@ ca. 300°C) is blown for several hours through the layer of carbon black. This step removes any remnants of treatment agent that may have been trapped within the layers of carbon black during oxidation. - Percentage of coverage of particle surface, %:
- > 75
- Surface treatment name:
- Oxidisation with ozone
Surface treatment
- Order:
- #1
- External layer:
- hydrophobic
- Description:
- The main post-production treatment of carbon black is oxidative after-treatment. The surface of carbon black is oxidized by placing it in contact with an oxidant (such as nitric acid, nitrogen oxides, ozone, etc.) that may be in gas or liquid form. Following oxidative treatment, the surface of carbon black experiences a pH shift towards more acidity due the augmentation of acidic and polar oxides on the surface of carbon black. This makes the oxidized form more hydrophilic in comparison to virgin non-oxidized form; meaning that the carbon black particles becomes more dispersible in water but are still completely insoluble. It is important to note that untreated and oxidised forms of carbon black exhibit the same types of functional groups on their surface; albeit levels may be increased several folds following oxidization.
- Main features of the surface treatment/functionalisation process:
Carried out at room temperature by passing a gas produced in an ozonizer through a layer of carbon black. Ozidization occurs in fluidized bed reactors, or stirred stationary bed reactors in which the carbon black is continuously kept in motion
- the type of process/reaction: oxidization
- relevant ranges of process parameters such as reaction conditions (pH, temperature):
room temperature
- any purification step:
no
- Functionalities introduced by the treatment: Carboxylic, hydroxylic, lactonic, quinonic, basic oxides
Following the oxidisation procedure, the carbon black particles are subjected to a treatment with hot air; hot air (@ ca. 300°C) is blown for several hours through the layer of carbon black. This step removes any remnants of treatment agent or free radicals that may have been trapped within the layers of carbon black during oxidation. Further, O3 is very unstable and decomposes rapidly to O2 - Percentage of coverage of particle surface, %:
- > 75
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - < 43 nm
- Percentile:
- D50
- Range:
- > 7 - < 87 nm
- Percentile:
- D90
- Range:
- > 15 - < 178 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- ca. 18 - ca. 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface-treated)
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 87 nm
- Percentile:
- D90
- Range:
- > 15 - < 178 nm
- Additional information:
- Post-production, some nanoforms of the set carbon black (solid: nanoform, no surface treatment) are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black. These functional groups render these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- ca. 35 - ca. 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 7 - <= 11 nm
- Percentile:
- D50
- Range:
- >= 10 - <= 15 nm
- Percentile:
- D90
- Range:
- >= 15 - <= 20 nm
- Additional information:
- These particle size distributions are for the constituent (primary) particles of the base carbon black prior to chemical treatment. Once the carbon black is treated and in dispersion form (which is the case for all but one of the chemically treated forms), it is not possible to get measurements of the constituent (primary) particles.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 200 - <= 300 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface-treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - < 43 nm
- Percentile:
- D50
- Range:
- > 7 - < 87 nm
- Percentile:
- D90
- Range:
- > 15 - < 178 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Agregation of nanoform
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- >= 95 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- >= 99.9 - <= 100 %
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Legal Entity Composition(s) open all close all
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- No surface treatment
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 17 - < 61 nm
- Percentile:
- D50
- Range:
- >= 30 - < 101 nm
- Percentile:
- D90
- Range:
- >= 54 - < 173 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 57 - <= 99 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Surface treated
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 20 - < 43 nm
- Percentile:
- D50
- Range:
- >= 33 - < 87 nm
- Percentile:
- D90
- Range:
- >= 55 - < 178 nm
- Additional information:
- Post-production, some nanoforms of the set carbon black (solid: nanoform, no surface treatment) are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black. These functional groups render these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black.
- Fraction of constituent particles in the size range 1-100 nm:
- > 60 - <= 99 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- solid: nanoform, no surface treatment
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- > 96 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - <= 48 nm
- Percentile:
- D50
- Range:
- >= 10 - <= 75 nm
- Percentile:
- D90
- Range:
- >= 21 - <= 100 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous
- Pure structure:
- yes
Specific surface area
- Range of specific surface area:
- >= 30 - <= 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- other: solid
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- Name of nanoform:
- Carbon Black with spheroid nanoparticles at >50% and surface are of 246 m2/g
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- other: The spheroidal category includes particles with aspect ratio up to 3:1 and thus this is a category for approximately “equilateral” particles. Examples of shapes included in this category are spherical, pyramidal, cubic, 3D star-shape.
- Pure shape:
- yes
- Typical composition:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- ca. 18.5 nm
- Range:
- >= 16 - <= 21 nm
- Percentile:
- D50
- Typical value:
- ca. 31.5 nm
- Range:
- >= 27 - <= 36 nm
- Percentile:
- D90
- Typical value:
- ca. 48.95 nm
- Range:
- >= 42.9 - <= 55 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous Carbon Black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Typical specific surface area:
- ca. 246 m²/g
- Range of specific surface area:
- >= 245.27 - <= 246.73 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- BC_set_not treated
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 15.1 - <= 22 nm
- Percentile:
- D50
- Range:
- >= 22 - <= 38.8 nm
- Percentile:
- D90
- Range:
- >= 31 - <= 56 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 99.9 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous carbon black
- Pure structure:
- yes
- Range:
- ca. 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 151.4 - <= 251 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 100 - <= 200 nm
- Percentile:
- D50
- Range:
- >= 100 - <= 200 nm
- Percentile:
- D90
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Surface treatments
Surface treatment
- Order:
- #1
- External layer:
- hydrophilic
- Description:
- provide a description of the treatment process. See boundary composition for example.
- Percentage of coverage of particle surface, %:
- > 75
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon Black (untreated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- >= 99 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - <= 48 nm
- Percentile:
- D50
- Range:
- >= 12 - <= 75 nm
- Percentile:
- D90
- Range:
- >= 21 - <= 118 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous
- Pure structure:
- yes
- Range:
- >= 99 - <= 100 %
- Description:
- Not a crystalline substance.
Specific surface area
- Range of specific surface area:
- >= 30 - <= 181 m²/g
- Skeletal density:
- >= 1.7 - <= 1.9 g/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
- Remarks:
- The determination of the nanomaterial status is made on the theoretical primary particle being within the nanoscale 1-100nm.
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 13 nm
- Percentile:
- D50
- Range:
- >= 10 - < 53 nm
- Percentile:
- D90
- Range:
- >= 23 - < 114 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
- Remarks:
- The determination of the nanomaterial status is made on the theoretical primary particle being within the nanoscale 1-100nm.
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 48 nm
- Percentile:
- D50
- Range:
- >= 12 - <= 75 nm
- Percentile:
- D90
- Range:
- >= 21 - <= 118 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 30 - < 181 m²/g
- Skeletal density:
- 1.7 - 1.9 g/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 7 - < 29 nm
- Percentile:
- D50
- Range:
- >= 10 - < 50 nm
- Percentile:
- D90
- Range:
- >= 15 - < 85 nm
- Additional information:
- The determination of the nanomaterial status is made on the theoretical primary particle being within the nanoscale 1-100nm.
Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 82 - < 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - <= 71 nm
- Percentile:
- D50
- Range:
- >= 16 - <= 111 nm
- Percentile:
- D90
- Range:
- >= 24 - < 179 nm
- Additional information:
- The determination of the nanomaterial status is made on the theoretical primary particle being within the nanoscale 1-100nm.
Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - <= 600 m²/g
- Skeletal density:
- 1.7 - 1.9 g/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- other: solid
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- Name of nanoform:
- PBl7_Nanoform_Spheroidal
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Typical composition:
- ca. 100 %
- Range:
- >= 80 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- ca. 14 nm
- Range:
- >= 6 - <= 71 nm
- Percentile:
- D50
- Typical value:
- ca. 22 nm
- Range:
- >= 7 - <= 101 nm
- Percentile:
- D90
- Typical value:
- ca. 32 nm
- Range:
- >= 21 - <= 178 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 80 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- C.I. Pigment Black 7
- Pure structure:
- yes
- Typical composition:
- ca. 100 %
Specific surface area
- Typical specific surface area:
- ca. 196.2 m²/g
- Range of specific surface area:
- >= 21 - <= 1 200 m²/g
- Skeletal density:
- ca. 1.718
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 100 - < 200 nm
- Percentile:
- D50
- Range:
- >= 100 - < 200 nm
- Percentile:
- D10
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Impurity
Nanoform
Impurity |
Nanoform |
- State Form:
- solid: nanoform
- Degree of purity:
- 100 % (w/w)
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Impurity 1
- Reference substance name:
- Arsenic
- EC Number:
- 231-148-6
- EC Name:
- Arsenic
- CAS Number:
- 7440-38-2
- Molecular formula:
- As
- IUPAC Name:
- arsenic
Impurity 2
- Reference substance name:
- Antimony
- EC Number:
- 231-146-5
- EC Name:
- Antimony
- CAS Number:
- 7440-36-0
- Molecular formula:
- Sb
- IUPAC Name:
- antimony
Impurity 3
- Reference substance name:
- polycyclic aromatic hydrocarbons
- Molecular formula:
- polycyclic aromatic hydrocarbons (PAH's) are a mixture of chemical compounds that consist of fused aromatic rings. A description of structure is not applicable
- IUPAC Name:
- polycyclic aromatic hydrocarbons
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - < 30 nm
- Percentile:
- D50
- Range:
- >= 10 - < 53 nm
- Percentile:
- D90
- Range:
- >= 23 - < 114 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregates. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 18 - < 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 7 - <= 29 nm
- Percentile:
- D50
- Range:
- >= 10 - < 50 nm
- Percentile:
- D90
- Range:
- >= 15 - < 85 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 55 - < 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 7 - <= 11 nm
- Percentile:
- D50
- Range:
- >= 10 - <= 15 nm
- Percentile:
- D90
- Range:
- >= 15 - <= 20 nm
- Additional information:
- These particle size distributions are for the constituent (primary) particles of the base carbon black prior to chemical treatment. Once the carbon black is treated and in dispersion form (which is the case for all but one of the chemically treated forms), it is not possible to get measurements of the constituent (primary) particles.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 200 - <= 300 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: bulk
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- BC_set_not treated
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 22 - <= 62 nm
- Percentile:
- D50
- Range:
- >= 37 - <= 98 nm
- Percentile:
- D90
- Range:
- >= 57 - <= 158 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
Specific surface area
- Range of specific surface area:
- >= 30 - <= 193 m²/g
- Range of volume specific surface area:
- >= 59 - <= 382 m²/cm³
- Skeletal density:
- > 1.9 - <= 2.1 g/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- Name of nanoform:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Typical composition:
- ca. 100 %
- Range:
- >= 99 - < 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- ca. 19 nm
- Range:
- >= 6 - <= 25 nm
- Percentile:
- other: D16
- Typical value:
- ca. 20 nm
- Range:
- >= 10 - <= 30 nm
- Percentile:
- D50
- Typical value:
- ca. 28 nm
- Range:
- >= 10 - <= 40 nm
- Percentile:
- other: D84
- Typical value:
- ca. 47 nm
- Range:
- >= 30 - <= 60 nm
- Percentile:
- D90
- Typical value:
- ca. 55 nm
- Range:
- >= 40 - <= 60 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 95 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous
- Pure structure:
- yes
- Typical composition:
- >= 99.9 %
- Range:
- >= 99.9 - <= 100 %
Specific surface area
- Typical specific surface area:
- ca. 800 m²/g
- Range of specific surface area:
- >= 500 - <= 1 000 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- 40.81 nm
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Typical value:
- 53.43 nm
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Typical value:
- 77.72 nm
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
Specific surface area
- Typical specific surface area:
- 202.22 m²/g
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- This nanoform is covered by a registration:
- yes
- Name of nanoform:
- LE_single Nano
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
- Remarks:
- varying sizes ranging
Percentileopen allclose all
- Percentile:
- D90
- Typical value:
- ca. 40.7 nm
- Range:
- >= 20 - <= 80 nm
- Percentile:
- D50
- Typical value:
- ca. 28.1 nm
- Range:
- >= 10 - <= 50 nm
- Percentile:
- D10
- Typical value:
- ca. 18.5 nm
- Range:
- >= 10 - <= 30 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 10 - <= 90 %
Crystallinity
Structures
- Structure:
- amorphous
- Pure structure:
- yes
- Typical composition:
- ca. 100 %
- Range:
- >= 99 - <= 100 %
Specific surface area
- Typical specific surface area:
- ca. 101.41 m²/g
- Range of specific surface area:
- >= 50 - <= 150 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Typical composition:
- >= 99 %
- Range:
- 100 %
Specific surface area
- Typical specific surface area:
- 42.5 m²/g
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- BC_set_not treated
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 13 nm
- Percentile:
- D50
- Range:
- > 15 - < 25 nm
- Percentile:
- D90
- Range:
- > 30 - < 40 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 89 - <= 109 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: bulk
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: bulk
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- >= 99 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 17 - < 61 nm
- Percentile:
- D50
- Range:
- >= 30 - < 101 nm
- Percentile:
- D90
- Range:
- >= 54 - < 173 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 57 - <= 99 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- carbon black (solid: nanoform, surface-treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 20 - < 43 nm
- Percentile:
- D50
- Range:
- >= 33 - < 87 nm
- Percentile:
- D90
- Range:
- >= 55 - < 178 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 60 - <= 99 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Typical composition:
- 100 %
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 17 - < 61 nm
- Percentile:
- D50
- Range:
- >= 30 - < 101 nm
- Percentile:
- D90
- Range:
- >= 54 - < 173 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 57 - < 99 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Armorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon Black (untreated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- >= 99 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - <= 48 nm
- Percentile:
- D50
- Range:
- >= 12 - <= 75 nm
- Percentile:
- D90
- Range:
- >= 21 - <= 118 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous
- Pure structure:
- yes
- Range:
- >= 99 - <= 100 %
- Description:
- Not a crystalline substance.
Specific surface area
- Range of specific surface area:
- >= 30 - <= 181 m²/g
- Skeletal density:
- >= 1.7 - <= 1.9 g/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- BC_set_not treated
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 22 - <= 62 nm
- Percentile:
- D50
- Range:
- >= 37 - <= 98 nm
- Percentile:
- D90
- Range:
- >= 57 - <= 158 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
Specific surface area
- Range of specific surface area:
- >= 30 - <= 193 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 59.5 - <= 97.6 nm
- Percentile:
- D50
- Range:
- >= 26.9 - <= 45.7 nm
- Percentile:
- D10
- Range:
- >= 6.7 - <= 10.6 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 60 - <= 80 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - < 71 nm
- Percentile:
- D50
- Range:
- >= 7 - < 87 nm
- Percentile:
- D90
- Range:
- >= 15 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 12 - <= 36 nm
- Percentile:
- D50
- Range:
- >= 16 - <= 59 nm
- Percentile:
- D90
- Range:
- >= 24 - <= 95 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- > 22 - < 305 m²/g
- Skeletal density:
- 1.9 g/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon Black (Solid: Nanoform, surface treated & non treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 100 - < 200 nm
- Percentile:
- D50
- Range:
- >= 100 - < 200 nm
- Percentile:
- D10
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon Black (Solid: Nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 100 - < 200 nm
- Percentile:
- D50
- Range:
- >= 100 - < 200 nm
- Percentile:
- D10
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - <= 30 nm
- Percentile:
- D50
- Range:
- >= 10 - <= 53 nm
- Percentile:
- D90
- Range:
- >= 23 - <= 114 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - <= 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- Name of nanoform:
- Carbon black (solid: nanoform, surface treated and surface non treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 100 - <= 200 nm
- Percentile:
- D50
- Range:
- >= 100 - <= 200 nm
- Percentile:
- D10
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- other: not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment and surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 100 - < 200 mm
- Percentile:
- D50
- Range:
- >= 100 - <= 200 mm
- Percentile:
- D90
- Range:
- >= 100 - <= 200 mm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 100 - <= 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 100 - <= 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon Black (Solid: Nanoform, surface treated and surface non treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 100 - < 200 mm
- Percentile:
- D50
- Range:
- >= 100 - <= 200 mm
- Percentile:
- D90
- Range:
- >= 100 - <= 200 mm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 100 - <= 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 100 - <= 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- other: solid: nanostructured material
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface and surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 100 - < 200 mm
- Percentile:
- D50
- Range:
- >= 100 - <= 200 mm
- Percentile:
- D90
- Range:
- >= 100 - <= 200 mm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- >= 100 - <= 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 100 - <= 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface & surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 100 - < 200 nm
- Percentile:
- D50
- Range:
- >= 100 - < 200 nm
- Percentile:
- D10
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- other: not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface and surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 100 - < 200 nm
- Percentile:
- D50
- Range:
- >= 100 - < 200 nm
- Percentile:
- D10
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 19 - < 22 nm
- Percentile:
- D50
- Range:
- >= 28 - < 31 nm
- Percentile:
- D90
- Range:
- >= 37 - < 42 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 42 - < 800 m²/g
- Skeletal density:
- >= 1.9 - <= 1.9 g/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 100 - < 200 nm
- Percentile:
- D50
- Range:
- >= 100 - < 200 nm
- Percentile:
- D10
- Range:
- > 100 - < 200 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary pa
rticles. While the fundamental building block of carbon black is the primary particle, they never exist
in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus
conceptual in nature since once the aggregate is formed the primary particles no longer exist as di
screte entities and have no physical boundaries among them. Once produced, individual aggregates
join together by van der Waals forces to form agglomerates. Agglomerates do not break down into
smaller components unless adequate force is applied (for example, shear force). Primary particle
and aggregate sizes are distributional properties and vary depending on the carbon black grade. T
ransmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an
individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment aug
ments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl
, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these
forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that
the carbon black particles becomes better dispersible and wettable in polar solutions but are still
completely insoluble. Surface treatment does not affect the morphological features i.e. primary
particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 100 - < 200 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- other: not applicable
Specific surface area
- Range of specific surface area:
- > 100 - < 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- >= 63 - <= 77 nm
- Percentile:
- D50
- Range:
- >= 34 - <= 44 nm
- Percentile:
- D10
- Range:
- >= 11 - <= 22 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acneiform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate. - Fraction of constituent particles in the size range 1-100 nm:
- >= 92 - <= 98 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- other: not applicable
Specific surface area
- Range of specific surface area:
- >= 72 - <= 112 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- Name of nanoform:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Typical composition:
- 100 %
- Range:
- >= 99 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- 6.2 nm
- Range:
- >= 6 - <= 15 nm
- Percentile:
- D50
- Typical value:
- 15 nm
- Range:
- >= 7 - <= 28 nm
- Percentile:
- D90
- Typical value:
- 28 nm
- Range:
- >= 21 - <= 78 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 99 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous
- Pure structure:
- yes
- Typical composition:
- >= 99.9 %
- Range:
- >= 99.9 - <= 100 %
Specific surface area
- Typical specific surface area:
- 139.67 m²/g
- Range of specific surface area:
- >= 21 - <= 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- Name of nanoform:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Typical composition:
- 100 %
- Range:
- >= 99 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- 6.2 nm
- Range:
- >= 6 - <= 15 nm
- Percentile:
- D50
- Typical value:
- 15 nm
- Range:
- >= 7 - <= 28 nm
- Percentile:
- D90
- Typical value:
- 28 nm
- Range:
- >= 21 - <= 78 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 99 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous
- Pure structure:
- yes
- Typical composition:
- >= 99.9 %
- Range:
- >= 99.9 - <= 100 %
Specific surface area
- Typical specific surface area:
- 139.67 m²/g
- Range of specific surface area:
- >= 21 - <= 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- single nanoform
- Name of nanoform:
- Carbon black (solid: nanoform, surface treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Typical composition:
- 100 %
- Range:
- >= 99 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- 11 nm
- Range:
- >= 3 - <= 22 nm
- Percentile:
- D50
- Typical value:
- 22 nm
- Range:
- >= 11 - <= 35 nm
- Percentile:
- D90
- Typical value:
- 35 nm
- Range:
- >= 22 - <= 82 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 99 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous
- Pure structure:
- yes
- Typical composition:
- >= 99.9 %
- Range:
- >= 99.9 - <= 100 %
Specific surface area
- Typical specific surface area:
- 116.6 m²/g
- Range of specific surface area:
- >= 35 - <= 600 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e.shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate
is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary
greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate. - Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
- Description:
- amorphous (amorphous carbon black) Pure Structure: yes
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Aggregation of nano form
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- > 96 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - <= 48 nm
- Percentile:
- D50
- Range:
- >= 10 - <= 75 nm
- Percentile:
- D90
- Range:
- >= 21 - <= 100 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- Amorphous
- Pure structure:
- yes
- Typical composition:
- ca. 100 %
Specific surface area
- Range of specific surface area:
- >= 30 - <= 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- BC_set_not treated
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - < 30 nm
- Percentile:
- D50
- Range:
- >= 10 - <= 53 nm
- Percentile:
- D90
- Range:
- >= 23 - <= 144 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment
augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- 35 - 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- BC_set_not treated
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - <= 30 nm
- Percentile:
- D50
- Range:
- >= 10 - <= 53 nm
- Percentile:
- D90
- Range:
- >= 23 - <= 144 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from
the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of acin
iform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary
particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles
are thus conceptual in nature since once the aggregate is formed the primary particles no longer
exist as discrete entities and have no physical boundaries among them. Once produced, individual
aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- 35 - 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)_SET_2
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 7 - < 71 nm
- Percentile:
- D50
- Range:
- >= 18 - < 55 nm
- Percentile:
- D90
- Range:
- >= 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 28 - < 292 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface treated)_SET_3
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 3 - < 43 nm
- Percentile:
- D50
- Range:
- >= 7 - < 87 nm
- Percentile:
- D90
- Range:
- >= 15 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 110 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- yes
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)_SET_1
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 7 - < 71 nm
- Percentile:
- D50
- Range:
- >= 26 - < 46 nm
- Percentile:
- D90
- Range:
- >= 21 - < 178 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
Post-production, some carbon blacks are subjected to oxidative after-treatment. The treatment augments the level of already present acidic and polar oxides on the surface of carbon black (Carboxyl, Phenol, Lactol, Ouinone, Ketone, Anhydrid, Lactone). These functional groups renders these forms more hydrophilic in comparison to the corresponding virgin non-oxidized form; meaning that the carbon black particles becomes better dispersible and wettable in polar solutions but are still completely insoluble. Surface treatment does not affect the morphological features i.e. primary particles, aggregates, and agglomerates of carbon black. - Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 24 - < 149 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- other: Solid
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- other: solid: nanostructured material
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- >= 7 - < 101 nm
- Percentile:
- D90
- Range:
- >= 21 - < 178 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 71 nm
- Percentile:
- D50
- Range:
- > 7 - < 101 nm
- Percentile:
- D90
- Range:
- > 21 - < 178 nm
- Additional information:
- Carbon balck is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 21 - < 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
- State Form:
- other: solid:nanostructured material
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D90
- Range:
- > 48 - < 63 nm
- Percentile:
- D50
- Range:
- > 30 - < 39 nm
- Percentile:
- D10
- Range:
- > 18 - < 23 nm
- Fraction of constituent particles in the size range 1-100 nm:
- > 99 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
Specific surface area
- Range of specific surface area:
- >= 500 - <= 1 200 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Impurity
Nanoform
Impurity |
Nanoform |
- State Form:
- solid: nanoform
- Degree of purity:
- 100 % (w/w)
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Impurity 1
- Reference substance name:
- Selenium
- EC Number:
- 231-957-4
- EC Name:
- Selenium
- CAS Number:
- 7782-49-2
- Molecular formula:
- Se
- IUPAC Name:
- selenium
Impurity 2
- Reference substance name:
- Mercury
- EC Number:
- 231-106-7
- EC Name:
- Mercury
- CAS Number:
- 7439-97-6
- Molecular formula:
- Hg
- IUPAC Name:
- Mercury
Impurity 3
- Reference substance name:
- Nickel
- EC Number:
- 231-111-4
- EC Name:
- Nickel
- CAS Number:
- 7440-02-0
- Molecular formula:
- Ni
- IUPAC Name:
- nickel
Impurity 4
- Reference substance name:
- Copper
- EC Number:
- 231-159-6
- EC Name:
- Copper
- CAS Number:
- 7440-50-8
- Molecular formula:
- Cu
- IUPAC Name:
- copper
Impurity 5
- Reference substance name:
- Cobalt
- EC Number:
- 231-158-0
- EC Name:
- Cobalt
- CAS Number:
- 7440-48-4
- Molecular formula:
- Co
- IUPAC Name:
- cobalt
Impurity 6
- Reference substance name:
- Chromium
- EC Number:
- 231-157-5
- EC Name:
- Chromium
- CAS Number:
- 7440-47-3
- Molecular formula:
- Cr
- IUPAC Name:
- chromium(2+)
Impurity 7
- Reference substance name:
- Cadmium
- EC Number:
- 231-152-8
- EC Name:
- Cadmium
- CAS Number:
- 7440-43-9
- Molecular formula:
- Cd
- IUPAC Name:
- cadmium
Impurity 8
- Reference substance name:
- Barium
- EC Number:
- 231-149-1
- EC Name:
- Barium
- CAS Number:
- 7440-39-3
- Molecular formula:
- Ba
- IUPAC Name:
- barium
Impurity 9
- Reference substance name:
- Arsenic
- EC Number:
- 231-148-6
- EC Name:
- Arsenic
- CAS Number:
- 7440-38-2
- Molecular formula:
- As
- IUPAC Name:
- arsenic
Impurity 10
- Reference substance name:
- Antimony
- EC Number:
- 231-146-5
- EC Name:
- Antimony
- CAS Number:
- 7440-36-0
- Molecular formula:
- Sb
- IUPAC Name:
- antimony
Impurity 11
- Reference substance name:
- polycyclic aromatic hydrocarbons
- Molecular formula:
- polycyclic aromatic hydrocarbons (PAH's) are a mixture of chemical compounds that consist of fused aromatic rings. A description of structure is not applicable
- IUPAC Name:
- polycyclic aromatic hydrocarbons
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, no surface treatment)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- >= 6 - < 30 nm
- Percentile:
- D50
- Range:
- >= 10 - < 53 nm
- Percentile:
- D90
- Range:
- >= 23 - < 114 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, they never exist in isolation, but are strongly fused by covalent bonds into aggregates. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - < 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
- Range:
- 100 %
- Crystal system:
- not applicable
Specific surface area
- Range of specific surface area:
- >= 35 - < 550 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- BC_set_not treated
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 30 nm
- Percentile:
- D50
- Range:
- > 7 - < 40 nm
- Percentile:
- D90
- Range:
- > 21 - < 80 nm
- Fraction of constituent particles in the size range 1-100 nm:
- >= 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Pure structure:
- yes
- Range:
- > 99 - <= 100 %
Specific surface area
- Range of specific surface area:
- > 310 - < 400 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface-treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- > 99 - <= 100 %
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 50 nm
- Percentile:
- D50
- Range:
- > 7 - < 70 nm
- Percentile:
- D90
- Range:
- > 25 - < 85 nm
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Pure structure:
- yes
- Range:
- > 99 - <= 100 %
Specific surface area
- Range of specific surface area:
- > 30 - < 150 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
- Name of set of nanoforms:
- Carbon black (solid: nanoform, surface-treated)
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
- Range:
- 100
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Range:
- > 6 - < 30 nm
- Percentile:
- D50
- Range:
- > 7 - < 70 nm
- Percentile:
- D90
- Range:
- > 21 - < 100 nm
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Pure structure:
- yes
- Range:
- > 99 - <= 100 %
Specific surface area
- Range of specific surface area:
- > 60 - < 100 m²/g
Surface functionalisation / treatment
- Surface treatment applied:
- no
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- ca. 42 nm
- Range:
- >= 22 - <= 62 nm
- Percentile:
- D50
- Typical value:
- ca. 72 nm
- Range:
- >= 37 - <= 98 nm
- Percentile:
- D90
- Typical value:
- ca. 104 nm
- Range:
- >= 57 - <= 158 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
Specific surface area
- Typical specific surface area:
- ca. 93 m²/g
- Range of specific surface area:
- >= 30 - <= 193 m²/g
- Typical volume specific surface area:
- 184 m²/cm³
- Range of volume specific surface area:
- >= 59 - <= 382 m²/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Nanoform
Nanoform |
- State Form:
- solid: nanoform
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Characterisation of nanoforms
- Type of information reported:
- set of nanoforms
Cross-reference
- Reason / purpose:
- justification for reporting set of similar nanoforms
Shape
Shape description
- Shape category:
- spheroidal
- Shape:
- spherical
- Pure shape:
- yes
Particle size distribution and range
Particle size distribution and range
- Shape category:
- spheroidal
Percentileopen allclose all
- Percentile:
- D10
- Typical value:
- ca. 42 nm
- Range:
- >= 22 - <= 62 nm
- Percentile:
- D50
- Typical value:
- ca. 72 nm
- Range:
- >= 37 - <= 98 nm
- Percentile:
- D90
- Typical value:
- ca. 104 nm
- Range:
- >= 57 - <= 158 nm
- Additional information:
- Carbon black is an engineered material, primarily composed of elemental carbon, obtained from the partial combustion or thermal decomposition of hydrocarbons. It exists as aggregates of aciniform morphology (i.e. shaped like a cluster of grapes) which are composed of spheroidal primary particles. While the fundamental building block of carbon black is the primary particle, these never exist in isolation, but are strongly fused by covalent bonds into aggregate. The primary particles are thus conceptual in nature since once the aggregate is formed the primary particles no longer exist as discrete entities and have no physical boundaries among them. Once produced, individual aggregates join together by van der Waals forces to form agglomerates. Agglomerates do not break down into smaller components unless adequate force is applied (for example, shear force). Primary particle and aggregate sizes are distributional properties and vary depending on the carbon black grade. Transmission electron micrographs demonstrate that while primary particle and aggregate sizes vary greatly within a given grade of carbon black, the primary particle size is essentially uniform within an individual aggregate.
- Fraction of constituent particles in the size range 1-100 nm:
- > 50 - <= 100 %
Crystallinity
Structures
- Structure:
- amorphous
- Name:
- amorphous carbon black
- Pure structure:
- yes
Specific surface area
- Typical specific surface area:
- ca. 93 m²/g
- Range of specific surface area:
- >= 30 - <= 193 m²/g
- Typical volume specific surface area:
- 184 m²/cm³
- Range of volume specific surface area:
- >= 59 - <= 382 m²/cm³
Surface functionalisation / treatment
- Surface treatment applied:
- no
- Does the set contain both treated and non-surface treated nanoforms?:
- no
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- other: solid: nanostructured material
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- other: solid in a mixture
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- other: solid: nanostructured material
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- other: substance imported as part of a polymer
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
- State Form:
- solid: particulate/powder
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 1
- Reference substance name:
- Buta-1,3-diene
- EC Number:
- 203-450-8
- EC Name:
- Buta-1,3-diene
- CAS Number:
- 106-99-0
- Molecular formula:
- C4H6
- IUPAC Name:
- buta-1,3-diene
Constituent 2
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Constituent 3
- Reference substance name:
- Isoprene
- EC Number:
- 201-143-3
- EC Name:
- Isoprene
- CAS Number:
- 78-79-5
- Molecular formula:
- C5H8
- IUPAC Name:
- isoprene
Impurity
Impurity |
- Degree of purity:
- > 98.01 - <= 98.61 % (w/w)
Constituent 1
- Reference substance name:
- Carbon black
- EC Number:
- 215-609-9
- EC Name:
- Carbon black
- CAS Number:
- 1333-86-4
- Molecular formula:
- C
- IUPAC Name:
- carbon
Impurity 1
- Reference substance name:
- Hydrogen
- EC Number:
- 215-605-7
- EC Name:
- Hydrogen
- CAS Number:
- 1333-74-0
- Molecular formula:
- H2
- IUPAC Name:
- hydrogen(1+)
Impurity 2
- Reference substance name:
- Nitrogen
- EC Number:
- 231-783-9
- EC Name:
- Nitrogen
- CAS Number:
- 7727-37-9
- Molecular formula:
- N2
- IUPAC Name:
- nitrogen
Impurity 3
- Reference substance name:
- Sulfur
- EC Number:
- 231-722-6
- EC Name:
- Sulfur
- CAS Number:
- 7704-34-9
- Molecular formula:
- S
- IUPAC Name:
- sulfur
Impurity 4
- Reference substance name:
- Oxygen
- EC Number:
- 231-956-9
- EC Name:
- Oxygen
- CAS Number:
- 7782-44-7
- Molecular formula:
- O2
Impurity 5
- Reference substance name:
- Antimony
- EC Number:
- 231-146-5
- EC Name:
- Antimony
- CAS Number:
- 7440-36-0
- Molecular formula:
- Sb
- IUPAC Name:
- antimony
Impurity 6
- Reference substance name:
- Not available for a mixture
- IUPAC Name:
- Not available for a mixture
Composition(s) generated upon use
Other types of composition(s)
Information on Registered Substances comes from registration dossiers which have been assigned a registration number. The assignment of a registration number does however not guarantee that the information in the dossier is correct or that the dossier is compliant with Regulation (EC) No 1907/2006 (the REACH Regulation). This information has not been reviewed or verified by the Agency or any other authority. The content is subject to change without prior notice.
Reproduction or further distribution of this information may be subject to copyright protection. Use of the information without obtaining the permission from the owner(s) of the respective information might violate the rights of the owner.