Abstract

In this paper, the kinetics and mechanistic studies of the kinetics of the interaction of [PtCl4]2− and [PdCl4]2− with cystine, cystamine, homocystine, and dithiodipropionic acid have been reported. The direction of the reaction primarily depends on the nature of the metal. The rate-limiting step for the interaction [PtCl4]2− with cystine and dithiodipropionic acid is the formation of S,S-binuclear disulfide platinum complex [Pt2Cl6(R-SS-R)]; for cystamine is the formation of S-disulfide platinum complex [PtCl3(R-SS-R)]; and for homocystine is the formation of the platinum(IV) thiol complex [PtCl4(S-R)2]. The rate-limiting step for the interaction [PdCl4]2− with cystine is the formation of S,S-binuclear disulfide platinum complex [Pd2Cl6(R-SS-R)]; for homocystine is the formation of S-disulfide platinum complex [PdCl3(R-SS-R)]; for cystamine, the rate-limiting step are represented by the contributions of the formation of both mono and binuclear disulfide complexes; and for dithiodipropionic acid is the hydrolysis of the binuclear S,S′-disulfide palladium complex.

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