Everything about Perrhenic Acid totally explained
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Perrhenic acid is the
chemical compound with the formula Re
2O
7(OH
2)
2. It is obtained by evaporating aqueous solutions of Re
2O
7. Conventionally, perrhenic acid is considered to have the formula HReO
4, and a species of this formula forms when rhenium(VII) oxide sublimes in the presence of water or steam. When a solution of Re
2O
7 is kept for a period of months, it breaks down and crystals of HReO
4.H
2O are formed, which contain tetrahedral ReO
4− For most purposes, perrhenic acid and
rhenium(VII) oxide are used interchangeably.
Properties
The structure of solid perrhenic acid is [O
3Re-O-ReO
3(H
2O)
2]. This species is a rare example of a metal
oxide coordinated to
water - most often metal-oxo-aquo species are unstable with respect to the corresponding
hydroxides:
» M(O)(H
2O) → M(OH)
2
Gaseous perrhenic acid is tetrahedral, as suggested by its formula HOReO
3.
Reactions
Perrhenic acid or the related anhydrous oxide Re
2O
7 converts to dirhenium heptasulfide upon treatment with
hydrogen sulfide:
» Re
2O
7+ 7 H
2S → Re
2S
7 + 7 H
2O
The heptasulfide, which has a complex structure, catalyses the hydrogenation of double bonds and is useful because it tolerates sulfur compounds, which poison noble metal catalysts. Re
2S
7 also catalyses the reduction of nitric oxide to N
2O.
Perrhenic acid in the presence of HCl undergoes reduction in the presence of
thioethers and
tertiary phosphines to give Re(V) complexes with the formula ReOCl
3L
2.
Perrhenic acid combined with
platinum on a support gives rise to a useful
hydrogenation and
hydrocracking catalyst for the
petroleum industry. For example,
silica impregnated with a solution of perrhenic acid is reduction with
hydrogen at 500 °C. This catalyst is used in the
dehydrogenation of
alcohols and also promotes the decomposition of
ammonia.
Catalysis
Perrhenic acid is a precursor to a variety of homogeneous catalysts, some of which are promising in niche applications that can justify the high cost of rhenium. In combination with
tertiary arsines, perrhenic acid gives a
catalyst for the
epoxidation of
alkenes with
hydrogen peroxide. Perrhenic acid catalyses the dehydration of oximes to nitriles.
»
Other uses
Perrhenic acid is also used in the manufacture of
x-ray targets.
Further Information
Get more info on 'Perrhenic Acid'.
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