J. Gonzalezvelasco, THE LINEAR SWEEP VOLTAMETRIC METHOD - AN APPLICATION TO THE STUDY OF REVERSIBLE AND IRREVERSIBLE-PROCESSES, Electroanalysis, 6(9), 1994, pp. 711-724
The theory of the linear sweep voltametric method has been the object
of a series of articles in which useful solutions for current versus s
can rate (I vs, upsilon) relationships and for the diagnostic criteria
for different kinds of reacting systems have been found. Some difficu
lties remain in order to clarify these concepts. This article is an at
tempt to introduce clearer ideas about how to deduce I vs. upsilon and
I vs. E relationships for the method mentioned above as applied to th
e study of reversible and irreversible electrochemical processes. Some
new equations are given which have been deduced under consideration o
f the numerical solutions obtained by Nicholson and Shain [4]. Variati
ons of Co(O, t) and C-R(O, t) with the potential value have been found
, and an unambigous definition of E degrees' for irreversible processe
s is given, which allows the determination of kappa degrees values fro
m linear voltammograms recorded in the study of such processes. Also,
the values of delta(N), the thickness of the diffusion layer, have bee
n calculated as a function of the potential and sweep rate.