A complete numerical simulation of the techniques of alternating current linear sweep and cyclic voltammetry: analysis of a reversible process by conventional and fast Fourier transform methods

We describe the method of achieving the first completely general simulation of ac linear sweep and cyclic voltammetry making use of the Fully implicit Richtmyer modification (FIRM) method. The simulation technique is applied to a reversible process under conditions where a sinusoidal waveform of any amplitude is superimposed onto the de potential which is swept at a finite scan rate. Results, where possible, are compared with the existing theory derived at constant de potential to confirm the fidelity of the simulation. In particular, we demonstrate excellent agreement with the results of Engb lom et al. [J. Electroanal. Chem. xxx (1999) xxx] for large amplitude ac vo ltammetry described in the companion paper immediately preceding this artic le. The use of conventional and Fourier transform methods of data analysis are compared to highlight the advantages of the use of the fast Fourier tra nsform algorithm in ac voltammetry. (C) 2000 Elsevier Science S.A. All righ ts reserved.