Hydrogen deuteride
Names | |
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IUPAC name Hydrogen deuteride | |
Systematic IUPAC name (2H)Dihydrogen[citation needed] | |
Identifiers | |
CAS Number |
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3D model (JSmol) |
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ChemSpider |
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ECHA InfoCard | 100.034.325 |
EC Number |
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PubChem CID |
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UN number | 1049 |
CompTox Dashboard (EPA) |
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InChI
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Properties | |
Chemical formula | HD |
Molar mass | 3.02204 g mol−1 |
Melting point | −259 °C (−434.2 °F; 14.1 K) |
Boiling point | −253 °C (−423.4 °F; 20.1 K) |
Hazards | |
GHS labelling: | |
Pictograms | |
Danger | |
Hazard statements | H220, H280 |
Precautionary statements | P210, P377, P381, P403, P410+P403 |
NFPA 704 (fire diamond) | 0 4 0 |
Autoignition temperature | 571 °C (1,060 °F; 844 K) |
Related compounds | |
Related hydrogens | Deuterium Hydrogen |
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Y verify (what is YN ?) Infobox references |
Hydrogen deuteride is an isotopologue of dihydrogen composed of two isotopes of hydrogen: the majority isotope 1H (protium) and 2H (deuterium). Its proper molecular formula is 1H2H, but for simplification, it is usually written as HD.
Preparation and occurrence
In the laboratory it is produced by treating sodium hydride with deuterated water:[1]
- NaH + D2O → HD + NaOD
Hydrogen deuteride is a minor component of naturally occurring molecular hydrogen. It is one of the minor but noticeable components of the atmospheres of all the giant planets, with abundances from about 30 ppm to about 200 ppm. HD has also been found in supernova remnants,[2] and other sources.[citation needed]
Planet | HD | H2 |
---|---|---|
Jupiter | ~0.003% | 89.8% ±2.0%[3] |
Uranus | ~0.015% | 82.5% ±3.3%[4] |
Neptune | ~0.019% | 80.0% ±3.2%[5] |
Radio emission spectra
HD and H2 have very similar emission spectra, but the emission frequencies differ.[6]
The frequency of the astronomically important J = 1-0 rotational transition of HD at 2.7 THz has been measured with tunable FIR radiation with an accuracy of 150 kHz.[7]
References
- ^ Bautista, Maria T.; Cappellani, E. Paul; Drouin, Samantha D.; Morris, Robert H.; Schweitzer, Caroline T.; Sella, Andrea; Zubkowski, Jeffery (1991). "Preparation and Spectroscopic Properties of the η2-Dihydrogen Complexes [MH(η2-H2)PR2CH2CH2PR2)2]+ (M = Iron, Ruthenium; R = Ph, Et) and Trends in Properties Down the Iron Group Triad". Journal of the American Chemical Society. 113 (13): 4876–87. doi:10.1021/ja00013a025.
- ^ Neufeld, David A.; Hollenbach, David J.; Kaufman, Michael J.; Snell, Ronald L.; Melnick, Gary J.; Bergin, Edwin A.; Sonnentrucker, Paule (2007). "SpitzerSpectral Line Mapping of Supernova Remnants. I. Basic Data and Principal Component Analysis". The Astrophysical Journal. 664 (2): 890–908. arXiv:0704.2179. Bibcode:2007ApJ...664..890N. doi:10.1086/518857. S2CID 15286019.
- ^ Williams, David R. (May 22, 2023). "Jupiter Fact Sheet". NASA Space Science Data Coordinated Archive. Retrieved July 31, 2023.
- ^ Williams, David R. (May 22, 2023). "Uranus Fact Sheet". NASA Space Science Data Coordinated Archive. Retrieved July 31, 2023.
- ^ Williams, David R. (May 22, 2023). "Neptune Fact Sheet". NASA Space Science Data Coordinated Archive. Retrieved July 31, 2023.
- ^ Quinn, W.; Baker, J.; Latourrette, J.; Ramsey, N. (1958). "Radio-Frequency Spectra of Hydrogen Deuteride in Strong Magnetic Fields". Phys. Rev. 112 (6): 1929. Bibcode:1958PhRv..112.1929Q. doi:10.1103/PhysRev.112.1929.
- ^ Evenson, K. M.; Jennings, D. A.; Brown, J. M.; Zink, L. R.; Leopold, K. R. (1988). "Frequency measurement of the J = 1-0 rotational transition of HD". Astrophysical Journal. 330: L135. Bibcode:1988ApJ...330L.135E. doi:10.1086/185221.
Further reading
- Spitzer observations of hydrogen deuteride
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