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Name |
Phosphine |
EINECS | 232-260-8 |
CAS No. | 7803-51-2 | Density | 1.15 (vs air) |
PSA | 13.59000 | LogP | 0.05810 |
Solubility | 0.04 g/100 mL | Melting Point |
-133.78oC |
Formula | H3P | Boiling Point | -87.5oC(lit.) |
Molecular Weight | 33.9976 | Flash Point | N/A |
Transport Information | UN 2199 | Appearance | colourless gas |
Safety | 28-36/37-45-61-63 | Risk Codes | 12-17-26-34-50 |
Molecular Structure | Hazard Symbols | F+,T+,N | |
Synonyms |
Hydrogenphosphide;Phosphine (PH3);Phosphorus hydride;Phosphorus hydride (PH3);Phosphorus trihydride;TK-Gas;Vaporphos; |
Article Data | 774 |
bis(trifluoromethyl)arsane
(CH3)3SnPH2
A
phosphan
B
trimethylstannylbis(trifluoromethyl)arsane
Conditions | Yield |
---|---|
20°C, 6 d; | A n/a B 100% |
20°C, 6 d; | A n/a B 100% |
bis(trifluoromethyl)arsane
Trimethylphosphinogerman
A
phosphan
B
Trimethylgermanyl-bis-(trifluormethyl)-arsin
Conditions | Yield |
---|---|
20°C, 5 wk; | A n/a B 100% |
20°C, 5 wk; | A n/a B 100% |
Conditions | Yield |
---|---|
In neat (no solvent) byproducts: Ca(OH)2; vac. (20-23 torr, 1.5 h, 0°C; 20°C, 10 torr); condensation (-78°C); (31)P NMR; | A 90% B n/a |
Conditions | Yield |
---|---|
With n-CH3C6H4SO3H In further solvent(s) Electrolysis; CH3OC2H4OH soln., cathode Pb, anode graphite, 20-25 °C, 0.01 A/cm**2, 5-8 V, 2.0 M CH3C6H4SO3H; | 89.3% |
With HCl In further solvent(s) Electrolysis; CH3OC2H4OH soln., cathode Pb, anode graphite, 20-25 °C, 0.01 A/cm**2, 4.3-4.5 V, 2.0 M HCl; | 54.6% |
With HCl In further solvent(s) Electrolysis; CH3OC2H4OH soln., cathode Pb, anode graphite, 20-25 °C, 0.05 A/cm**2, 9-12 V, 2.0 M HCl; | 45% |
Conditions | Yield |
---|---|
With n-CH3C6H4SO3H In ethanol Electrolysis; cathode Pb, anode graphite, 20-25 °C, 0.01 A/cm**2, 4.5-6.0 V, 1.7-2 M n-CH3C6H4SO3H; | 80.7% |
With n-CH3C6H4SO3H In ethanol Electrolysis; cathode Pb, anode graphite, 20-25 °C, 0.05 A/cm**2, 12-26 V, 1.7-2 M n-CH3C6H4SO3H; | 74.4% |
With HCl In ethanol Electrolysis; cathode Pb, anode graphite, 20-25 °C, 0.05 A/cm**2, 6.5-6.7 V, 1.7-2 M HCl; | 60.5% |
lithium aluminium tetrahydride
phosphorus trichloride
B
phosphan
Conditions | Yield |
---|---|
In diethyl ether reduction of PBr3 with LiAlH4 in ether at -115 °C;; | A n/a B 80% |
In diethyl ether reduction of PBr3 with LiAlH4 in ether at -115 °C;; | A n/a B 80% |
3-diethylgerma 1,2-diphenyl 1,2-diphospholane
Ge(C2H5)2C2H4P(C6H5)P(Ge(C2H5)2C6H5)
A
phenyldiethylgermane
B
2-(diethylgermyl)-1-(phenylphosphino)ethane
C
phosphan
D
phenylphosphane
Conditions | Yield |
---|---|
With lithium aluminium tetrahydride In diethyl ether LiAlH4 (2-fold excess) added in portions to educts mixt. in Et2O, refluxed for 6 h; hydrolyzed, extd. (Et2O), dried (Na2SO4), distd.; elem. anal.; | A 79% B 73% C n/a D 68% |
trans-3,3-dimethyl-1,2-diphenyl-1,2,3-diphosphagermolane
3,3-dimethyl-2-(dimethylphenylgermyl)-1-phenyl-1,2,3-diphosphagermolane
A
2-(dimethylgermyl)-1-(phenylphosphino)ethane
B
phosphan
C
dimethylphenylgermane
D
phenylphosphane
Conditions | Yield |
---|---|
With lithium aluminium tetrahydride In diethyl ether LiAlH4 (2-fold excess) added in portions to educts mixt. in Et2O, refluxed for 6 h; hydrolyzed, extd. (Et2O), dried (Na2SO4), distd.; elem. anal.; | A 78% B n/a C 52% D 56% |
Conditions | Yield |
---|---|
With HCl In benzyl alcohol Electrolysis; cathode Pb, anode graphite, 20-25 °C, 0.05 A/cm**2, 30-60 V, 3.5 M HCl; | 72.4% |
phosphorus trichloride
phosphan
Conditions | Yield |
---|---|
With sodium In toluene reduction of PCl3 with Na in toluene;; heating, addn. of H2O;; | 70% |
With Na In toluene reduction of PCl3 with Na in toluene;; heating, addn. of H2O;; | 70% |
In water hydrolysis of PCl3;; |
Molecule structure of Phosphine (CAS NO.7803-51-2):
IUPAC Name: Phosphane
Molecular Weight: 33.997581 g/mol
Molecular Formula: H3P
Enthalpy of Vaporization: 14.6 kJ/mol
Vapour Pressure: 27300 mmHg at 25 °C
Boiling Point: −87.5 °C(lit.)
Stability: Stable, but pyrophoric - spontaneously flammable in air. Note the very wide explosion limits. Incompatible with oxidizing agents, halogens, nitric acid.
XLogP3-AA: -0.1
Exact Mass: 33.997237
MonoIsotopic Mass: 33.997237
Canonical SMILES: P
InChI: InChI=1S/H3P/h1H3
InChIKey: XYFCBTPGUUZFHI-UHFFFAOYSA-N
EINECS: 232-260-8
Product Categories: Inorganics;Compressed and Liquefied GasesPesticides;FumigantsMicro/Nanoelectronics;GasesCatalysis and Inorganic Chemistry;GasesVapor Deposition Precursors;Chemical Synthesis;Electronic Chemicals;Insecticides;Phosphorus Compounds;Phosphorus Precursors;Precursors by Metal;Synthetic Reagents
Phosphine was once regarded as a gaseous form of the element because of its strong association with elemental phosphorus,but Lavoisier (1789) recognised it as a combination of phosphorus with hydrogen by describing it as "hydruyet of phosphorus, or phosphuret of hydrogen"
Later Ernst von Meyer (1891) described the early history of phosphine research thus: "The discovery of phosphuretted hydrogen (PH3) by Gengembre in 1783, and the examination of it by Pelletier (who was the first to prepare it pure), only became fruitful after Humphry Davy's investigations; and the last-named elucidated the composition of this gas, and pointed out its analogy to ammonia, this being emphasised still more sharply by H. Rose later on."
Then Thénard (1845) used a cold trap to separate diphosphine from phosphine which had been generated from calcium phosphide, so that demonstrating that P2H4 is responsible for spontaneous flammability associated with PH3, and also for the characteristic orange/brown colour that can form on surfaces, which is a polymerisation product. He considered diphosphine's formula to be PH2, and thus an intermediate between elemental phosphorus, the higher polymers, and phosphine.
Phosphine is commonly used for semiconductor manufacturing.
Industrially Phosphine can be made by the reaction of white phosphorus with sodium hydroxide, producing sodium hypophosphite and sodium phosphite as a by-product.
1. | ihl-hmn LCLo:1000 ppm | GUCHAZ Guide to the Chemicals Used in Crop Protection 6 (1973),412. | ||
2. | ihl-rat LC50:11 ppm/4H | AIHAAP American Industrial Hygiene Association Journal. 36 (1975),452. | ||
3. | ihl-mus LCLo:380 mg/m3/2H | 85GMAT Toxicometric Parameters of Industrial Toxic Chemicals Under Single Exposure Izmerov, N.F., et al.,Moscow, USSR.: Centre of International Projects, GKNT,1982,75. | ||
4. | ihl-cat LCLo:70 mg/m3/2H | 85GMAT Toxicometric Parameters of Industrial Toxic Chemicals Under Single Exposure Izmerov, N.F., et al.,Moscow, USSR.: Centre of International Projects, GKNT,1982,75. | ||
5. | ihl-rbt LCLo:2500 ppm/20M | AEXPBL Archiv fuer Experimentelle Pathologie und Pharmakologie. 27 (1890),314. | ||
6. | ihl-gpg LCLo:140 mg/m3/4H | 85GMAT Toxicometric Parameters of Industrial Toxic Chemicals Under Single Exposure Izmerov, N.F., et al.,Moscow, USSR.: Centre of International Projects, GKNT,1982,75. | ||
7. | ihl-mam LCLo:1000 ppm/5M | AEPPAE Naunyn-Schmiedeberg’s Archiv fuer Experimentelle Pathologie und Pharmakologie. 138 (1928),65. |
EPA Extremely Hazardous Substances List. Reported in EPA TSCA Inventory.
Hazard Codes: F+, T+, N
Risk Statements: 12-17-26-34-50
R12:Extremely flammable.
R17:Spontaneously flammable in air.
R26:Very toxic by inhalation.
R34:Causes burns.
R50:Very toxic to aquatic organisms.
Safety Statements: 28-36/37-45-61-63
S28:After contact with skin, wash immediately with plenty of soap-suds.
S36/37:Wear suitable protective clothing and gloves.
S45:In case of accident or if you feel unwell, seek medical advice immediately (show the label whenever possible.)
S61:Avoid release to the environment. Refer to special instructions / safety data sheets.
RIDADR: UN 2199 2.3
WGK Germany: 2
RTECS: SY7525000
HazardClass: 2.3
OSHA PEL: TWA 0.3 ppm; STEL 1 ppm
ACGIH TLV: TWA 0.3 ppm; STEL 1 ppm
DFG MAK: 0.1 ppm (0.14 mg/m3)
DOT Classification: 2.3; Label: Poison Gas, Flammable Gas
For occupational chemical analysis use OSHA: #ID-180 or NIOSH: Phosphine S332.
Phosphine (CAS NO.7803-51-2) is also named as CCRIS 8578 ; ECO2FUME ; Fosforowodor ; Fosforowodor [Polish] ; Gas-Ex-B ; HSDB 1233 ; Hydrogen phosphide ; Phosphine (fumigant) ; Phosphoretted hydrogen ; Phosphorus hydride ; Phosphorus trihydride ; Phosphorwasserstoff ; Phosphorwasserstoff [German] ; RCRA waste number P096 ; UN 2199 . Phosphine (CAS NO.7803-51-2) is colourless gas. It is highly flammable. It usually ignites spontaneously in air. It is insoluble in water. Phosphine is a reducing agent. Liquefied Phosphine can be detonated. Forms explosive mixtures with even small amounts of oxygen. Ignites or reacts violently with boron trichloride, dichlorine oxide, halogens (bromine, chlorine, iodine), metal nitrates, nitrogen oxides, nitric acid, nitrous acid, nitrogen trichloride. Phosphine is a super- toxic gas. An air concentration of 3 ppm is safe for long term exposure, 500 ppm is lethal in 30 minutes, and a concentration of 1,000 ppm is lethal after a few breaths. Phosphine can explode with powerful oxidizers. The gas is heavier than air and may travel along the ground to an ignition source. Container may explode in heat of fire. Phosphine emits highly toxic fumes of phosphorus oxides when heated to decomposition. It may become unstable at high temperatures.