Various microband electrode problems are simulated using finite difference methods. These are (i) the chronoamperometric transient obtained under diffusion-only conditions, and (ii) the steady-state and (iii) the transient responses observed when the microband electrode is located in a convective flow. Three separate algorithms are employed to solve the problems, namely the strongly implicit procedure (SIP), the alternating direction implicit (ADI) method and the backwards implicit (BI) method. The different approaches are compared and contrasted in terms of their relative efficiencies. Optimal simulation approaches to the solution of microband electrode problems are identified
Though literature reports the trends of the significant quantities of the responses for different po...
The use of microband electrodes in electrochemistry has expanded in recent years due to enhanced cur...
A simple but powerful numerical simulation for analyzing the electrochemical behavior of ion-selecti...
We extend our earlier work (see K. Harriman et al., Technical Report NA99/19) on adaptive finite ele...
We extend the work in the accompanying paper (K. Harriman et al., Electrochem. Commun. 2 (2000) 567)...
The strongly implicit procedure is used to model the diffusion-only chronoamperometric responses of ...
The finite difference method is used to perform 2D numerical simulation of chronoamperometry and vol...
The strongly implicit procedure is used to simulate the chronoamperometric transient resulting from ...
Electrochemical systems are considered for which the concentration of ions in solution is low, and t...
Investigations at microring electrodes are limited by the lack of equations that describe short and ...
The Boundary Element Method (BEM), a numerical method developed in engineering fields, is capable of...
The finite difference method in conjunction with a conformal mapping technique is used to simulate t...
Both the strongly implicit procedure and the alternating direction implicit finite difference (ADI) ...
A strategy for a general electrochemical simulator is presented based on formulating the finite diff...
Investigations at microring electrodes are limited by the lack of equations that describe short and ...
Though literature reports the trends of the significant quantities of the responses for different po...
The use of microband electrodes in electrochemistry has expanded in recent years due to enhanced cur...
A simple but powerful numerical simulation for analyzing the electrochemical behavior of ion-selecti...
We extend our earlier work (see K. Harriman et al., Technical Report NA99/19) on adaptive finite ele...
We extend the work in the accompanying paper (K. Harriman et al., Electrochem. Commun. 2 (2000) 567)...
The strongly implicit procedure is used to model the diffusion-only chronoamperometric responses of ...
The finite difference method is used to perform 2D numerical simulation of chronoamperometry and vol...
The strongly implicit procedure is used to simulate the chronoamperometric transient resulting from ...
Electrochemical systems are considered for which the concentration of ions in solution is low, and t...
Investigations at microring electrodes are limited by the lack of equations that describe short and ...
The Boundary Element Method (BEM), a numerical method developed in engineering fields, is capable of...
The finite difference method in conjunction with a conformal mapping technique is used to simulate t...
Both the strongly implicit procedure and the alternating direction implicit finite difference (ADI) ...
A strategy for a general electrochemical simulator is presented based on formulating the finite diff...
Investigations at microring electrodes are limited by the lack of equations that describe short and ...
Though literature reports the trends of the significant quantities of the responses for different po...
The use of microband electrodes in electrochemistry has expanded in recent years due to enhanced cur...
A simple but powerful numerical simulation for analyzing the electrochemical behavior of ion-selecti...