Perxenate

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Template:Short description In chemistry, perxenates are salts of the yellow[1] xenon-containing anion Template:Chem.[2] This anion has octahedral molecular geometry, as determined by Raman spectroscopy, having O–Xe–O bond angles varying between 87° and 93°.[3] The Xe–O bond length was determined by X-ray crystallography to be 1.875 Å.[4]

Synthesis

Perxenates are synthesized by the disproportionation of xenon trioxide when dissolved in strong alkali:[5]

2 XeO3 (s) + 4 OH (aq) → Xe (g) + Template:Chem (aq) + O2 (g) + 2 H2O (l)

When Ba(OH)2 is used as the alkali, barium perxenate can be crystallized from the resulting solution.[5]

Perxenic acid

File:Perxenonsäure Structural Formula V.1.svg
Perxenic acid

Perxenic acid is the unstable conjugate acid of the perxenate anion, formed by the solution of xenon tetroxide in water. It has not been isolated as a free acid, because under acidic conditions it rapidly decomposes into xenon trioxide and oxygen gas:[6][7]

Template:Chem2

Its extrapolated formula, H4XeO6, is inferred from the octahedral geometry of the perxenate ion (Template:Chem) in its alkali metal salts.[6][4]

The pKa of aqueous perxenic acid has been indirectly calculated to be below 0, making it an extremely strong acid. Its first ionization yields the anion Template:Chem, which has a pKa value of 4.29, still relatively acidic. The twice deprotonated species Template:Chem has a pKa value of 10.81.[8] Due to its rapid decomposition under acidic conditions as described above, however, it is most commonly known as perxenate salts, bearing the anion Template:Chem.[6][2]

Properties

Perxenic acid and the anion Template:Chem are both strong oxidizing agents,[9] capable of oxidising silver(I), copper (II) and manganese(II) to (respectively) silver(III), copper(III),[10] and permanganate.[11] The perxenate anion is unstable in acidic solutions,[10] being almost instantaneously reduced to Template:Chem.[1]

The sodium, potassium, and barium salts are soluble.[12] Barium perxenate solution is used as the starting material for the synthesis of xenon tetroxide (XeO4) by mixing it with concentrated sulfuric acid:[13]

Ba2XeO6 (s) + 2 H2SO4 (l) → XeO4 (g) + 2 BaSO4 (s) + 2 H2O (l)

Most metal perxenates are stable, except silver perxenate, which decomposes violently.[10]

Applications

Sodium perxenate, Na4XeO6, can be used for the analytic separation of trace amounts of americium from curium. The separation involves the oxidation of Am3+ to Am4+ by sodium perxenate in acidic solution in the presence of La3+, followed by treatment with calcium fluoride, which forms insoluble fluorides with Cm3+ and La3+, but retains Am4+ and Pu4+ in solution as soluble fluorides.[9]

References

Template:Reflist

Template:Xenon compounds Template:Noble gas compounds

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