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| '''Mercury hydride''' (HgH) is a ] and ]. The Hg-H bond is very weak and therefore the compound has only been detected in ] at temperatures up to 6 degrees Kelvin |
'''Mercury hydride''' (HgH) is a ] and ]. The Hg-H bond is very weak and therefore the compound has only been detected in ] at temperatures up to 6 degrees Kelvin.<ref>''Hydrides of the Main-Group Metals: New Variations on an Old Theme'' Simon Aldridge , Anthony J. Downs Chem. Rev., 2001, 101 (11), pp 3305–3366 {{DOI|10.1021/cr960151d}}</ref><ref>''Hyperfine Interaction, Chemical Bonding, and Isotope Effect in ZnH, CdH, and HgH Molecules'' Lon B. Knight and William Weltner J. Chem. Phys. 55, 2061 (1971); {{doi|10.1063/1.1676373}}</ref> The dihydride HgH<sub>2</sub> and the linear dimer HHgHgH have also been detected this way. | ||
| == References == | == References == | ||
Revision as of 23:02, 11 December 2010
Mercury hydride (HgH) is a binary compound of hydrogen and mercury. The Hg-H bond is very weak and therefore the compound has only been detected in matrix isolation at temperatures up to 6 degrees Kelvin. The dihydride HgH2 and the linear dimer HHgHgH have also been detected this way.
References
- Hydrides of the Main-Group Metals: New Variations on an Old Theme Simon Aldridge , Anthony J. Downs Chem. Rev., 2001, 101 (11), pp 3305–3366 doi:10.1021/cr960151d
- Hyperfine Interaction, Chemical Bonding, and Isotope Effect in ZnH, CdH, and HgH Molecules Lon B. Knight and William Weltner J. Chem. Phys. 55, 2061 (1971); doi:10.1063/1.1676373