Novel synthesis of ClF(6)(+) and BrF(6)(+) salts

Inorganic Chemistry
T Schroer, Karl O Christe

Abstract

For a compound in a given oxidation state, its oxidizing strength increases from its anion to the neutral parent molecule to its cation. Similarly, an anion is more easily oxidized than its neutral parent molecule, which in turn is more easily oxidized than its cation. This concept was systematically exploited in our search for new superoxidizers. Transition metal fluoride anions were prepared in their highest known oxidation states by high temperature/high pressure fluorinations with elemental fluorine and subsequently converted to their more strongly oxidizing cations by a displacement reaction with a strong Lewis acid. The application of this principle resulted in new syntheses for ClF(6)(+)AsF(6)(-) and BrF(6)(+)AsF(6)(-) using the highly reactive and thermally unstable NiF(3)(+) cation that was prepared from the reaction of the NiF(6)(2)(-) anion with AsF(5) in anhydrous HF. Attempts to prepare the known KrF(+) and ClO(2)F(2)(+) cations and the yet unknown XeF(7)(+) cation by the same method were unsuccessful. The results from this and previous studies show that NiF(3)(+) is a stronger oxidative fluorinator than PtF(6), but whether its oxidizing strength exceeds that of KrF(+) remains unclear. Its failure to oxidize Kr to ...Continue Reading

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