Studies in nickel(IV) chemistry. Kinetics of electron transfer from dimethyl sulfoxide to oxohydroxonickel(IV) in aqueous acid medium

The kinetics of electron transfer from phenylhydrazine(S) to tris-(dimethylglyoximato) nickelate(IV), Ni(dmg)i-(dmg2-= dimethylglyoximate dianion), have been studied in aqueous medium in the range of 6.21 I pH I 12.2. The kinetics exhibit a pseudo-first-order disappearance of Ni(dmg)g-when excess S

The kinetics of electron transfer from hexacyanoferrate(I1) to tris(dimethylg1yoximato)nickelate(IV), Ni(dmg)g-, to produce Fe(CN)t-and Ni(dmgH)2, follows a pseudo-first-order disappearance in the Ni(1V). The pseudo-first-order rate constants hob8 are linearly dependent on [Fe(CN);-]o in a fiftyfold

Kinetics of the Cu(I1) ion-mediated acid decomposition of tris(dimethylg1yoximato)nickelate(IV), Ni(dmg);-(dmg2-= dimethylglyoximate dianion), are reported in aqueous medium in the range of 3.6 < pH < 6.6 a t 35OC and p = 0.57M. The pseudo-first-order rate constants of the disappearance of Ni(1V) (h

The kinetics of electron transfer in the redox system containing phenylhydrazine (S) and tris(dimethylglyoximato)nickelate(IV), in the presence of catalytic amounts of added CU(&, have been studied in aqueous medium at an ionic strength of 0.25M in the pH range of 6.01-9.06. The kinetics exhibit pse

Silver(1) catalyzed oxidation of aspartic acid by cerium(1V) was studied in acid perchlorate medium. The stoichiometry of the reaction is represented by the eq. (i) Dimeric cerium(IV) species has been indicated and employed in calculations of monomeric cerium(IV) species concentrations. The reactio

Kinetics of oxidation of L-ascorbic acid ( H 2 A J by sodium perborate (SPB) and peroxy disulphate ( P D S ) have been investigated in aqueous acid and rnicellar media. Reaction kinetics indicated first-order dependence on both loxidantl and [ H2AI. increase in ionic strength ( p J increased reactio