Mechanistic study of palladium(II) catalysed oxidation of crotonic acid by periodate in aqueous perchloric acid medium

## Abstract The formation of palladium(II) complexes with aliphatic amines and their oxidation by chloramine‐T in perchloric acid medium has been studied. The spectrophotometric studies showed the formation of 1:1 and 1:2 complexes between palladium(II) and amine in absence of HClO~4~. An increase

## Abstract The complexes PdCl~4~^2−^, PdCl~3~(H~2~O)^−^, and PdCl~3~(Ac)^2−^, in rapid equilibrium with each other under the adopted experimental conditions, react with ethylenediamine according to the experimental rate law A reaction scheme is proposed involving the reaction of enH^+^ with each

Kinetics of oxidation of thiocyanate ion (NCS-) by iodine monochloride and iodine has been studied in aqueous perchloric acid medium. The rates of oxidations followed the rate laws: Variations in ionic strength and dielectric constant of the medium had little effects on the rates of reactions with

The oxidation of Fe(H) by periodate in aqueous acidic solutions obeys the rate law (i) ## Rate = {k, + k,/[fl]} [Fe(H)]' + kk'[Wll)l W-IT WI + k3 [Wll)l 2 [L-l T where [L61T represents the total periodate concentration. The magnitudes of k,,, k;, ky and k3 are 0.235 set-', 120 set-', 7.5 f 1.5 set-

The kinetics of oxidation of CoEDTA2-by periodate follow the rate law (i) Rate = k&l [CoEDTA2-I F-1 1 +Kl[L-] Where [L-l is the total periodate concentration, k3 is the rate constant for the electron-transfer process, and K, is the pre-equilibrium formation constant. Activation parameters are report