Journal of Physical Chemistry p. 7814 - 7824 (1991)
Update date:2022-08-30
Topics:
Unwin, Patrick R.
Bard, Allen J.
The use of the scanning electrochemical microscope (SECM), in both the steady-state and chronoamperometric feedback modes, is proposed as a new method for measuring the kinetics of following chemical reactions in electrode processes.Particular attention is given to the ErCimechanistic case (first-order irreversible chemical step following reversible electron transfer).Theory for the problem, relating the SECM feedback current to the tip-substrate distance, tip electrode radius, and rate constant for the chemical step, is developed numerically by using the alternating-direction implicit finite-difference scheme.The theoretical results demonstrate that both the chronoamperometric and steady-state feedback modes are sensitive techniques for accurate kinetic determinations, and that homogeneous chemical rate constants in excess of 2 * 104 s-1 should be accessible to measurement with current SECM technology.The theoretical predictions are verified experimentally with the measurement of the rate of deamination, in aqueous basic solution (pH 10.2-12.4), of oxidized N,N-dimethyl-p-phenylenediamine, produced at a platinum electrode.
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