Micellar, Microemulsion, and Salt Kinetic Effects upon the Reaction Fe(CN) 2 (bpy) 2 + S 2 O 82-

The reaction Fe(CN)4 (bpy)2- + S2 O8 2- has been studied in aqueous solutions of hexadecyltrimethylammonium chloride (CTAC) and bromide (CTAB), sodium dodecyl sulfate (SDS), dodecyl tricosaoxyethylene glycol ether (Brij35 ), and octylphenol(ethyleneoxide)9.5 ether (Triton X-100). The influence of ch

## Abstract The reaction Fe(CN)~4~(bpy)^2−^ + S~2~O~8~^2−^ has been studied in aqueous micellar solutions of __N__‐tetradecyl‐__N,N__‐dimethyl‐3‐ammonio‐1‐propanesulfonate, SB3‐14. The influence of changes in the surfactant concentration as well as in the peroxodisulfate ions concentration on __k__

The reaction (4-CNpy ϭ 4-cyanopyridine) was studied 3Ϫ 2Ϫ Fe(CN) (4-CNpy) ϩ S O 5 2 8 in aqueous salt solutions in the presence of several electrolytes as well as in anionic, cationic, and nonionic surfactant solutions. In aqueous salt solutions the noncoulombic interactions seem to be important in

## Abstract Salt effects on the oxidation of the iron(II) complexes Fe(CN)~4~(bpy)^2−^, __cis__‐(CN)~2~(bpy)~2~ and Fe(bpy)~3~^2+^ by S~2~O~8~^2−^ as well as on the reaction Fe^2+^ + Co(NH~3~)~5~Cl^2+^ have been studied in concentrated electrolyte solutions at 298.2 K. We have gone from anion–anion