436 THE ELEMENTS OF GROUPS IB AND MB
USES
Mercury is extensively used in various pieces of scientific apparatus,
such as thermometers, barometers, high vacuum pumps, mercury
lamps, standard cells (for example the Weston cell), and so on. The
metal is used as the cathode in the Kellner-Solvay cell (p. 130).
Mercury compounds (for example mercury(II) chloride) are used
in medicine because of their antiseptic character. The artificial red
mercury(II) sulphide is the artist's 'vermilion^1. Mercury(II) sulphate
is a catalyst in the manufacture of ethanal from ethyne:
C 2 H 2 + H 2 O ^^ CH 3. CHO
COMPOUNDS OF MERCURY
The chemistry of mercury compounds is complicated by the
equilibrium
The relevant redox potentials are :
Hg2+(aq) 4- 2e~ -> Hg(I) : E^ = 0.85 V
+ 2e~ -> 2Hg(I) : E^ = 0.79 V
Hence mercury is a poor reducing agent; it is unlikely to be
attacked by acids unless these have oxidising properties (for example
nitric acid), or unless the acid anion has the power to form complexes
with one or both mercury cations Hg2+ or Hgf +, so altering the
E^ values. Nitric acid attacks mercury, oxidising it to Hg2+(aq)
when the acid is concentrated and in excess, and to Hg2+(aq) when
mercury is in excess and the acid dilute. Hydriodic acid HI(aq)
attacks mercury, because mercury(II) readily forms iodo-complexes
(see below, p. 438).
Oxidation state +1
The mercury(I) ion has the structure
so that each mercury atom is losing one electron and sharing one
electron, i.e. is 'using' two valency electrons. The existence of Hg| +
has been established by experiments in solution and by X-ray
diffraction analysis of crystals of mercury(I) chloride, Hg 2 Cl 2 where