Identification | More | [Name]
DEUTERIUM | [CAS]
7782-39-0 | [Synonyms]
D2 (2)H2 diplogen Deuteriu DEUTIRIUM DEUTERIUM DEUTERRIUM hydrogen-2 Chebi:29294 Dideuterium Hydrogen (2D) Heavy hydrogen Cysteine- deuteriummolecule D-Glucitol-1,1' D-Mannitol-1,1' DeuteriuM Gas (D2) D-Glucitol-6,6' Benzyl alcohol-α D-Dulcitol-1,1&rsquo hydrogen,isotopeofmass2 DEUTERIUM, 99.8 ATOM % D 2-Deoxy-D-ribose-5,5' L-Ascorbic Acid-6,6&rsquo DEUTERIUM, 99.98 ATOM % D D-Glyceraldehyde-3,3&rsquo DEUTERIUM ISO 9001:2015 REACH DEUTERIUM (D, 99.96%) <400 PPM HD 1-(4-Methoxyphenyl)-6-heptyn-1-one DEUTERIUM (D, 99.8%) (D2,99.6%+HD,0.4%) DEUTERIUM (D, 99.9%) (D2,99.8%+HD,0.2%) DEUTERIUM (D, 99.8%) CHEMICAL PURITY 99.99%+ DEUTERIUM (D, 99.8%) CHEMICAL PURITY 99.999% DEUTERIUM (D, 99.8%) (D2,99.6%+HD,0.4%)(IN CODE H-3 CYLINDER) | [EINECS(EC#)]
231-952-7 | [Molecular Formula]
D2 | [MDL Number]
MFCD00064812 | [Molecular Weight]
4.03 | [MOL File]
7782-39-0.mol |
Chemical Properties | Back Directory | [Appearance]
colourless gas | [Melting point ]
-254.43° (18.73 K) at 128.5 mm (triple point) | [Boiling point ]
-249.5 °C(lit.)
| [density ]
0.169 g/mL at 25 °C(lit.)
| [vapor density ]
0.07 (vs air)
| [vapor pressure ]
17.1-1665kPa at -254.43--234.8℃ | [form ]
gas | [color ]
colorless | [Stability:]
Stable. Extremely flammable. Readily forms explosive mixtures with air. | [Merck ]
13,2956 | [Dielectric constant]
1.3(20℃) | [CAS DataBase Reference]
7782-39-0(CAS DataBase Reference) | [EPA Substance Registry System]
Deuterium (7782-39-0) |
Safety Data | Back Directory | [Hazard Codes ]
F+ | [Risk Statements ]
R12:Extremely Flammable. | [Safety Statements ]
S9:Keep container in a well-ventilated place . S16:Keep away from sources of ignition-No smoking . S33:Take precautionary measures against static discharges . | [RIDADR ]
UN 1957 2.1
| [WGK Germany ]
1
| [HazardClass ]
2.1 | [Hazardous Substances Data]
7782-39-0(Hazardous Substances Data) |
Hazard Information | Back Directory | [General Description]
DEUTERIUM(7782-39-0) is an isotope of hydrogen but DEUTERIUM(7782-39-0) is chemically identical. DEUTERIUM(7782-39-0) is a colorless, odorless gas. DEUTERIUM(7782-39-0) is easily ignited. Once ignited DEUTERIUM(7782-39-0) burns with a pale blue, almost invisible flame. The vapors are lighter than air. DEUTERIUM(7782-39-0) is flammable over a wide range of vapor/air concentrations. Under prolonged exposure to fire or intense heat the containers may rupture violently and rocket. DEUTERIUM(7782-39-0) is not toxic but is a simple asphyxiate by the displacement of oxygen in the air. | [Reactivity Profile]
Deuterium, like hydrogen, is a reducing agent; reacts readily with oxidizing agents. | [Air & Water Reactions]
Highly flammable. | [Health Hazard]
Vapors may cause dizziness or asphyxiation without warning. Some may be irritating if inhaled at high concentrations. Contact with gas or liquefied gas may cause burns, severe injury and/or frostbite. Fire may produce irritating and/or toxic gases. | [Fire Hazard]
EXTREMELY FLAMMABLE. Will be easily ignited by heat, sparks or flames. Will form explosive mixtures with air. Vapors from liquefied gas are initially heavier than air and spread along ground. CAUTION: Hydrogen (UN1049), Deuterium (UN1957), Hydrogen, refrigerated liquid (UN1966) and Methane (UN1971) are lighter than air and will rise. Hydrogen and Deuterium fires are difficult to detect since they burn with an invisible flame. Use an alternate method of detection (thermal camera, broom handle, etc.) Vapors may travel to source of ignition and flash back. Cylinders exposed to fire may vent and release flammable gas through pressure relief devices. Containers may explode when heated. Ruptured cylinders may rocket. | [Chemical Properties]
colourless gas | [Definition]
A naturally occurring stable isotope of
hydrogen in which the nucleus contains
one proton and one neutron. The atomic
mass is thus approximately twice that of
1H; deuterium is known as ‘heavy hydrogen’.
Chemically it behaves almost identically
to hydrogen, forming analogous
compounds, although reactions of deuterium
compounds are often slower than
those of the corresponding 1H compounds.
This is made use of in kinetic studies where
the rate of a reaction may depend on transfer
of a hydrogen atom (i.e. a kinetic isotope
effect). | [Agricultural Uses]
Deuterium is one of the three isotopes of hydrogen, the other two being hydrogen-1 and tritium. Hydrogen-1 and deuterium are naturally occurring stable isotopes, while the radioactive tritium is made artificially. In nature, the ratio is one part of deuterium to 6500parts of normal hydrogen. Deuterium is present in water as the oxide HDO from which deuterium is usually obtained by electrolysis or fractional distillation. Its chemical behavior is similar to that of hydrogen, although deuterium compounds react slowly. | [Purification Methods]
Pass the gas over activated charcoal at -195o [MacIver & Tobin J Phys Chem 64 451 1960]. Purify it also by diffusion through nickel [Pratt & Rogers, J Chem Soc, Faraday Trans I 92 1589 1976]. Always check deuterium for radioactivity to determine the amount of tritium in it (see D2O below). |
Questions And Answer | Back Directory | [History]
Rutherford predicted the existence of this heavy isotope of hydrogen in 1920. It was detected by Urey, Brickwedde and Murphy in 1932. It occurs in all natural compounds of hydrogen including water, as well as in free hydrogen molecules at the ratio of about one part per 6,000 parts hydrogen.
| [Uses]
The principal application of deuterium is in tracer studies for measuring rates and kinetics of chemical reactions. It also is used in thermonuclear reactions; and as a projectile in cyclotrons for bombardment of atomic nuclei to synthesize isotopes of several transuranium elements. Deuterium oxide, D2O, or heavy water is used as a neutron moderator in nuclear reactors.
| [Preparation]
Deuterium may be prepared by several methods. Urey’s first method of preparation involved fractional distillation of a very large amount of liquid hydrogen. It also may be produced by electrolysis of heavy water obtained by H2S/H2O exchange process. It may be obtained by continued, long-time electrolysis of ordinary water in which light water molecules are split first, thus concentrating deuterated oxygen in the residual liquid. Also, deuterium in high purity may be separated by thermally induced diffusion processes.
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