Abstract
Voltammetric responses of nanometer-sized electrodes are investigated theoretically by emphasizing the inappropriateness of the Butler–Volmer (BV) and Marcus theories in describing the heterogeneous electron transfer (ET) kinetics at potentials largely departing from the formal potential of the redox moieties and the importance of the distance-dependent electronic coupling at electrodes having sizes comparable to the effective electron-tunneling distances. It is shown that, for ET reactions with standard rate constant (k0) near 0.1 cm/s, the BV theory could predict voltammetric responses visibly deviated from that expected by the more realistic Chidsey model (Science1991, 215, 919–922), as the electrode radii (r0) are smaller than 50 nm. For ET reactions with k0 around 1.0 cm/s, this occurs as r0 approaches 10 nm. Except for ET reactions involving redox moieties with reorganization energy lower than 50 KJ/mol at electrodes smaller than 5 nm in r0, the Marcus formalism for the heterogeneous ET kinetics cou...
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