Evidence for a two-step electron-transfer process in the electrode reactions of tetraisopropylhydrazine, tetracyclohexylhydrazine and their radical cation salts

The heterogeneous electron-transfer kinetics of tetraisopropylhydrazine (4) , tetraisopropylhydrazine radical cation hexafluoroantimonate (4+(.) SbF6-) , tetracyclohexylhydrazine (5) and tetracyclohexylhydrazine radical cation hexafluoroantimonate (5(+.) SbF6-) have been studied by cyclic voltammetry at a gold working electrode in acetonitrile containing 0.10 M tetrabutylamm onium hexafluorophosphate. Results were obtained at eight scan rates betwee n 0.2 and 40 V s(-1) and six temperatures ranging from - 15 to 50 degrees C . The results were analyzed according to two models: (1) A direct, one-step electron transfer in which structural change and electron transfer are con certed. (2) A two-step process in which structural change is considered as a separate chemical reaction that precedes or follows the electron-transfer event. Specifically, a square scheme is proposed in which the favored untw isted radical cation can convert to a twisted version, which then receives an electron to form the favored twisted neutral hydrazine. Also, the favore d twisted neutral can convert to an untwisted version, which can give up an electron to form the favored untwisted radical cation, thus completing the square. It was found that the one-step model was unable to account for the voltammetric data. On the other hand, analysis by the two-step mechanism p roduced substantially better agreement between simulation and experiment, p articularly for 4 and 4(+.) SbF6-. The present experiments provide the firs t evidence that two-step electron transfer reactions occur with acyclic tet raalkylhydrazines. (C) 2000 Elsevier Science S. A. All rights reserved.