In this article, we review some of our previous work that considers the general problem of numerical simulation of the currents at microelectrodes using an adaptive finite element approach. Microelectrodes typically consist of an electrode embedded (or recessed) in an insulating material. For all such electrodes, numerical simulation is made difficult by the presence of a boundary singularit
In a series of papers, Harriman et al. [1, 2, 3, 4 and 5] have presented a reliable means of simulat...
Steady-state and time-dependent currents under diffusion limited conditions for a circular microelec...
We present an approach for the modeling and simulation of electrochemical pro-cesses based on a gene...
In this article, we review some of our previous work that considers the general problem of numerical...
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 ...
In this series of papers we consider the general problem of numerical simulation of the currents at ...
We extend the work in the accompanying paper (K. Harriman et al., Electrochem. Commun. 2 (2000) 567)...
In our accompanying paper (K. Harriman et al., Electrochem. Commun. 2 (2000) 150) we demonstrated ho...
The amperometric response of electrodes generally cannot be predicted without taking into account ma...
We extend our earlier work (see K. Harriman et al., Technical Report NA99/19) on adaptive finite ele...
In this paper we shall introduce a transient finite element algorithm by considering the simplest pr...
In this paper we extend the work in [Electrochem. Commun. 5 (2003) 519] to more complex reaction mec...
In this paper, we extend the work in a previous paper [Harriman et al., Electrochem. Commun. 5 (2003...
In this paper we extend the work in [Electrochem. Commun. 5 (2003) 519] to more complex reaction mec...
In a series of papers, Harriman et al. [1, 2, 3, 4 and 5] have presented a reliable means of simulat...
Steady-state and time-dependent currents under diffusion limited conditions for a circular microelec...
We present an approach for the modeling and simulation of electrochemical pro-cesses based on a gene...
In this article, we review some of our previous work that considers the general problem of numerical...
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 ...
In this series of papers we consider the general problem of numerical simulation of the currents at ...
We extend the work in the accompanying paper (K. Harriman et al., Electrochem. Commun. 2 (2000) 567)...
In our accompanying paper (K. Harriman et al., Electrochem. Commun. 2 (2000) 150) we demonstrated ho...
The amperometric response of electrodes generally cannot be predicted without taking into account ma...
We extend our earlier work (see K. Harriman et al., Technical Report NA99/19) on adaptive finite ele...
In this paper we shall introduce a transient finite element algorithm by considering the simplest pr...
In this paper we extend the work in [Electrochem. Commun. 5 (2003) 519] to more complex reaction mec...
In this paper, we extend the work in a previous paper [Harriman et al., Electrochem. Commun. 5 (2003...
In this paper we extend the work in [Electrochem. Commun. 5 (2003) 519] to more complex reaction mec...
In a series of papers, Harriman et al. [1, 2, 3, 4 and 5] have presented a reliable means of simulat...
Steady-state and time-dependent currents under diffusion limited conditions for a circular microelec...
We present an approach for the modeling and simulation of electrochemical pro-cesses based on a gene...