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Suppliers for
Boron tribromide
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Properties | CAS |
10294-33-4 | Formula |
BBr3 | EINECS |
233-657-9 |
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29 Registered suppliers
Fe | 7.4
| Co | 0.08
| Ni | 0.06
| Cu | 0.07
| Ag | 0.05
| Au | 0.07
| Mn | 0.01
| Cr | 0.09
| Ti | 0.8
| Zn | 3.2
| Be | 0.03
| Al | 0.7
| Ga | 0.01
| Sn | 0.05
| Sb | 0.01
| Bi | 0.01
| Mo | 0.02
| Pt | 0.01
| Pd | 0.01
| Na | 0.08
| Mg | 0.03
| Ca | 0.05
| Sr | 0.01
| Ba | 0.01
| Cd | 0.01
| Pb | 0.04
| As | 0.07
| Bi | 0.01 |
Fe | 7.4
| Co | 0.08
| Ni | 0.06
| Cu | 0.07
| Ag | 0.05
| Au | 0.07
| Mn | 0.01
| Cr | 0.09
| Ti | 0.8
| Zn | 3.2
| Be | 0.03
| Al | 0.7
| Ga | 0.01
| Sn | 0.05
| Sb | 0.01
| Bi | 0.01
| Mo | 0.02
| Pt | 0.01
| Pd | 0.01
| Na | 0.08
| Mg | 0.03
| Ca | 0.05
| Sr | 0.01
| Ba | 0.01
| Cd | 0.01
| Pb | 0.04
| As | 0.07
| Bi | 0.01 |
mp | − 46 °C(lit.)
| bp | ~90 °C
| Density | 2.60 g/mL at 20 °C(lit.)
| vapor Density | 8.6 (vs air)
| vapor pressure | 40 mm Hg ( 14 °C)
| Fp | 30 °F
| storage temp | Poison room
| Color | colorless
| Sensitive | Moisture Sensitive
| Merck | 14,1347
| Stability | Stable, but reacts violently with water.
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| Item Results( PPM)
| Fe 7.4
| Co 0.08
| Ni 0.06
| Cu 0.07
| Ag 0.05
| Au 0.07
| Mn 0.01
| Cr 0.09
| Ti 0.8
| Zn 3.2
| Be 0.03
| Al 0.7
| Ga 0.01
| Sn 0.05
| Sb 0.01
| Bi 0.01
| Mo 0.02
| Pt 0.01
| Pd 0.01
| Na 0.08
| Mg 0.03
| Ca 0.05
| Sr 0.01
| Ba 0.01
| Cd 0.01
| Pb 0.04
| As 0.07
| Bi 0.01
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| Concluassion The results conforms with enterprise standards |
mp | − 46 °C(lit.)
| bp | ~90 °C
| Density | 2.60 g/mL at 20 °C(lit.)
| vapor Density | 8.6 (vs air)
| vapor pressure | 40 mm Hg ( 14 °C)
| Fp | 30 °F
| storage temp | Poison room
| Color | colorless
| Sensitive | Moisture Sensitive
| Merck | 14,1347
| Stability | Stable, but reacts violently with water.
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| Item Results( PPM)
| Fe 7.4
| Co 0.08
| Ni 0.06
| Cu 0.07
| Ag 0.05
| Au 0.07
| Mn 0.01
| Cr 0.09
| Ti 0.8
| Zn 3.2
| Be 0.03
| Al 0.7
| Ga 0.01
| Sn 0.05
| Sb 0.01
| Bi 0.01
| Mo 0.02
| Pt 0.01
| Pd 0.01
| Na 0.08
| Mg 0.03
| Ca 0.05
| Sr 0.01
| Ba 0.01
| Cd 0.01
| Pb 0.04
| As 0.07
| Bi 0.01
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| Concluassion The results conforms with enterprise standards |
Molecular Formula: BBr3 Molecular Weight: 250.52 Hazard Symbols: T+,C,F,N UN Number: UN 3390 6.1/PG 1 WGKGermany: 3 PackingGroup: I HS Code: 28129090
More details are to be found here
Molecular Formula: BBr3 Molecular Weight: 250.52 Hazard Symbols: T+,C,F,N UN Number: UN 3390 6.1/PG 1 WGKGermany: 3 PackingGroup: I HS Code: 28129090
More details are to be found here
Molecular Formula: BBr3 Molecular Weight: 250.52 Hazard Symbols: T+,C,F,N UN Number: UN 3390 6.1/PG 1 WGKGermany: 3 PackingGroup: I HS Code: 28129090
More details are to be found here
Molecular Formula: BBr3 Molecular Weight: 250.52 Hazard Symbols: T+,C,F,N UN Number: UN 3390 6.1/PG 1 WGKGermany: 3 PackingGroup: I HS Code: 28129090
More details are to be found here
Molecular Formula: BBr3 Molecular Weight: 250.52 Hazard Symbols: T+,C,F,N UN Number: UN 3390 6.1/PG 1 WGKGermany: 3 PackingGroup: I HS Code: 28129090
More details are to be found here
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Molecular Fomula | BBr3
| Molecular Weight | 250.52
| Appearance | Colorless fumes, viscous liquid
| Purity | 99.99% |
Air Liquide manufactures BBr3 in a variety of grades to fit each application
(specifications range from 99.2% to 99.999%).
"Amber" material is a Technical grade suitable for laboratory use and as the starting material for production of electronic grade material.
The purified "Clear and Colorless" grade is devoid of free bromine and suitable for use in Pharmaceutical Manufacturing.
Our photovoltaic and semiconductor grade products are specified to low part per billion impurity levels to meet the rigorous requirements of the electronics industry.
Boron Tribromide is a strong Lewis Acid widely employed as a reagent or catalyst in a
variety of organic reactions. It is commonly used in pharmaceutical manufacturing as a
demethylating agent, notably in the manufacture of morphine derivatives.
It is also used as a Friedel-Crafts catalyst in a number of polymerization and alkylation
reactions, and as a starting material for various boron compounds.
In electronics applications, BBr3 has long been utilized in diffusion processes as a
boron source for p-type doping of silicon. More recently BBr3 is being used in photovoltaic manufacturing, as increased solar conversion efficiencies have been demonstrated with boron doped n-type silicon cells.
Air Liquide manufactures BBr3 in a variety of grades to fit each application
(specifications range from 99.2% to 99.999%).
"Amber" material is a Technical grade suitable for laboratory use and as the starting material for production of electronic grade material.
The purified "Clear and Colorless" grade is devoid of free bromine and suitable for use in Pharmaceutical Manufacturing.
Our photovoltaic and semiconductor grade products are specified to low part per billion impurity levels to meet the rigorous requirements of the electronics industry.
Boron Tribromide is a strong Lewis Acid widely employed as a reagent or catalyst in a
variety of organic reactions. It is commonly used in pharmaceutical manufacturing as a
demethylating agent, notably in the manufacture of morphine derivatives.
It is also used as a Friedel-Crafts catalyst in a number of polymerization and alkylation
reactions, and as a starting material for various boron compounds.
In electronics applications, BBr3 has long been utilized in diffusion processes as a
boron source for p-type doping of silicon. More recently BBr3 is being used in photovoltaic manufacturing, as increased solar conversion efficiencies have been demonstrated with boron doped n-type silicon cells.
Air Liquide manufactures BBr3 in a variety of grades to fit each application
(specifications range from 99.2% to 99.999%).
"Amber" material is a Technical grade suitable for laboratory use and as the starting material for production of electronic grade material.
The purified "Clear and Colorless" grade is devoid of free bromine and suitable for use in Pharmaceutical Manufacturing.
Our photovoltaic and semiconductor grade products are specified to low part per billion impurity levels to meet the rigorous requirements of the electronics industry.
Boron Tribromide is a strong Lewis Acid widely employed as a reagent or catalyst in a
variety of organic reactions. It is commonly used in pharmaceutical manufacturing as a
demethylating agent, notably in the manufacture of morphine derivatives.
It is also used as a Friedel-Crafts catalyst in a number of polymerization and alkylation
reactions, and as a starting material for various boron compounds.
In electronics applications, BBr3 has long been utilized in diffusion processes as a
boron source for p-type doping of silicon. More recently BBr3 is being used in photovoltaic manufacturing, as increased solar conversion efficiencies have been demonstrated with boron doped n-type silicon cells.
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Last update 2024-04-26
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