posted on 2012-02-01, 00:00authored byRamachandran Balasubramanian, Geneviève Blondin, Juan Carlos Canales, Cyrille Costentin, Jean-Marc Latour, Marc Robert, Jean-Michel Savéant
The kinetics of proton-induced intervalence charge transfer
(IVCT)
may be measured electrochemically by generating one of the members
of the IVCT couple in situ and following its conversion by means of
the electrochemical signature of the other member of the couple. In
the case of the diiron complex taken as an example, the reaction kinetics
analysis, including the H/D isotope effect, clearly points to the
prevalence of the concerted proton–intervalence charge transfer
pathway over the stepwise pathways. A route is thus open toward systematic
kinetic studies of proton-induced IVCT aiming at uncovering the main
reactivity parameters and the factors that control the occurrence
of concerted versus stepwise pathways.