Mercury(I) hydride: Difference between revisions

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	== Molecular forms ==		== Molecular forms ==

	=== History ===		=== History ===
	In 1979 and 1985, Swiss chemical physicists, Egger and Gerber, and Soviet chemical physicists, Kolbycheva and Kolbychev, independently, theoretically determined that it is feasible to develop a mercury(I) hydride molecular laser.		In 1979 and 1985, Swiss chemical physicists, Egger and Gerber, and Soviet chemical physicists, Kolbycheva and Kolbychev, independently, theoretically determined that it is feasible to develop a mercury(I) hydride molecular laser.
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	The mercury centre in mercury complexes such as hydridomercury can accept or donate a single electron by association:		The mercury centre in mercury complexes such as hydridomercury can accept or donate a single electron by association:
	:HgH + R → HHgR		:HgH + R → HHgR
	Because of this acceptance or donation of the electron, hydridomercury has radical character. It is a moderately reactive monoradical.		Because of this acceptance or donation of the electron, hydridomercury has radical character. It is a moderately reactive monoradical.

	== References ==		== References ==
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	{{mercury compounds}}		{{mercury compounds}}

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	{{inorganic-compound-stub}}		{{inorganic-compound-stub}}

Revision as of 07:19, 21 August 2014

Mercury(I) hydride
Names
IUPAC name Mercury(I) hydride
Other names Dimercurane Mercurous hydride
Identifiers
3D model (JSmol)	Interactive image
CompTox Dashboard (EPA)	DTXSID1024172
InChI InChI=1S/Hg.HKey: DJSHOLCMNYJYSS-UHFFFAOYSA-N
SMILES
Properties
Chemical formula	HgH
Molar mass	201.60 g mol
Related compounds
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa). Infobox references

Chemical compound

Mercury(I) hydride (systematically named mercury hydride) is an inorganic compound with the empirical chemical formula HgH. It has not yet been obtained in bulk, hence its bulk properties remain unknown. However, molecular mercury(I) hydrides with the formulae HgH and Hg
₂H
₂ have been isolated in solid gas matrices. The molecular hydrides are very unstable toward thermal decomposition. As such the compound is not well characterised, although many of its properties have been calculated via computational chemistry.

Molecular forms

History

In 1979 and 1985, Swiss chemical physicists, Egger and Gerber, and Soviet chemical physicists, Kolbycheva and Kolbychev, independently, theoretically determined that it is feasible to develop a mercury(I) hydride molecular laser.

Chemical properties

Mercury(I) hydride is an unstable gas and is the heaviest group 12 monohydride. The composition of mercury(I) hydride is 0.50% hydrogen and 99.50% mercury. In mercury(I) hydride, the formal oxidation states of hydrogen and mercury are −1 and +1, respectively, because of the electronegativity of mercury is lower than that of hydrogen. The stability of metal hydrides with the formula MH (M = Zn-Hg) increases as the atomic number of M increases.

The Hg-H bond is very weak and therefore the compound has only been matrix isolated at temperatures up to 6 K. The dihydride, HgH₂, has also been detected this way.

A related compound is bis(hydridomercury)(Hg—Hg) with the formula Hg
₂H
₂, which can be considered to be dimeric mercury(I) hydride. It spontaneously decomposes into the monomeric form.

Radicality

The mercury centre in mercury complexes such as hydridomercury can accept or donate a single electron by association:

HgH + R → HHgR

Because of this acceptance or donation of the electron, hydridomercury has radical character. It is a moderately reactive monoradical.

References

"Mercury hydride". Chemistry WebBook. USA: National Institute of Standards and Technology. Retrieved 14 October 2012.
Aldridge, Simon; Downs, Anthony J. (2001). "Hydrides of the Main-Group Metals: New Variations on an Old Theme". Chemical Reviews. 101 (11): 3305–65. doi:10.1021/cr960151d. PMID 11840988.
Knight, Lon B. (1971). "Hyperfine Interaction, Chemical Bonding, and Isotope Effect in ZnH, CdH, and HgH Molecules". The Journal of Chemical Physics. 55 (5): 2061. doi:10.1063/1.1676373.

Mercury compounds

Mercury(I)

Mercury(II)

Organomercury compounds	Hg(CH₃)₂ Hg(C₂H₅)₂ Hg(C₆H₅)₂ HgC₆H₅CH₃CO₂ HgC₆H₅OB(OH)₂ HgC₆H₅NO₃ HgC₆H₅CCl₃ HgClC₆H₄CO₂H HgOHCH₂CHOCH₃CH₂(NHCO) C ₃₆H ₇₀HgO ₄ HgOHCH₂CHOCH₃CH₂NHCOC₆H₄OCH₂CO₂H Na₂HgOHC₆HOBrC₆H₂OBrOCHC₆H₄CO₂ HgOC₆H₂CH₃NO₂ NaHgC₂H₅SC₆H₄CO₂

Mercury(IV)

HgF₄ (hypothetical)

Amalgams

Mercury cations

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