In this paper, we extend the work in a previous paper [Harriman et al., Electrochem. Commun. 5 (2003) 519] to the problem of linear sweep voltammetry at a microdisc electrode. We use an adaptive finite element algorithm to simulate voltammograms under reversible, quasi-reversible and irreversible conditions. Excellent agreement with previous results can be seen. © 2004 Elsevier B.V. All rights reserved
In this article, we review some of our previous work that considers the general problem of numerical...
We consider the general problem of numerical simulation of the currents at microelectrodes using an ...
Theory is presented describing the shape of voltammograms obtained from reversible electrode reactio...
In this paper, we extend the work in a previous paper [Harriman et al., Electrochem. Commun. 5 (2003...
A finite element approach for numerical simulation of linear sweep voltammetry at the wall tube elec...
A finite element approach for numerical simulation of linear sweep voltammetry at the wall tube elec...
Recently, we reported on a two-dimensional simulation method for the cyclic and linear sweep voltamm...
A computationally efficient, implicit approach to the simulation of linear sweep and cyclic voltamme...
In the first paper in this series we derived an exponentially expanding mesh designed specifically t...
We extend our earlier work on the numerical simulation of ac linear sweep voltammetry at macroelectr...
The problem of linear sweep voltammetry at a channel electrode, for the case of a reversible electro...
We describe the method of achieving the first completely general simulation of ac linear sweep and c...
In this article, we review some of our previous work that considers the general problem of numerical...
Microdisc electrode arrays are popular tools in electroanalytical chemistry. In linear sweep and cyc...
Investigations at microring electrodes are limited by the lack of equations that describe short and ...
In this article, we review some of our previous work that considers the general problem of numerical...
We consider the general problem of numerical simulation of the currents at microelectrodes using an ...
Theory is presented describing the shape of voltammograms obtained from reversible electrode reactio...
In this paper, we extend the work in a previous paper [Harriman et al., Electrochem. Commun. 5 (2003...
A finite element approach for numerical simulation of linear sweep voltammetry at the wall tube elec...
A finite element approach for numerical simulation of linear sweep voltammetry at the wall tube elec...
Recently, we reported on a two-dimensional simulation method for the cyclic and linear sweep voltamm...
A computationally efficient, implicit approach to the simulation of linear sweep and cyclic voltamme...
In the first paper in this series we derived an exponentially expanding mesh designed specifically t...
We extend our earlier work on the numerical simulation of ac linear sweep voltammetry at macroelectr...
The problem of linear sweep voltammetry at a channel electrode, for the case of a reversible electro...
We describe the method of achieving the first completely general simulation of ac linear sweep and c...
In this article, we review some of our previous work that considers the general problem of numerical...
Microdisc electrode arrays are popular tools in electroanalytical chemistry. In linear sweep and cyc...
Investigations at microring electrodes are limited by the lack of equations that describe short and ...
In this article, we review some of our previous work that considers the general problem of numerical...
We consider the general problem of numerical simulation of the currents at microelectrodes using an ...
Theory is presented describing the shape of voltammograms obtained from reversible electrode reactio...