MODERN ASPECTS OF ELECTROCHEMISTRY
No. 43
Edited by Mordechay Schlesinger
University of Windsor, Ontario, Canada
This volume contains eight chapters dealing with modeling and numeric simulations. Topics in Number 43 include:
mathematical modeling in electrochemistry using finite element and finite difference methods by Mordechay Schlesinger
modeling atomic systems of more than two bodies by G.W.F. Drake
modeling impedance of porous electrodes, in order to permit optimal utilization of the active electrode material by Andrzej Lasia
multi-scale mass transport in porous silicon gas by Peter A. Kottke, Andrei G. Fedorov and James L. Gole
physical theory, molecular simulation, and computational electrochemistry for PEM fuel cells, with emphasis on fundamental understanding, diagnostics, and design by Michael Eikerling and Kourosh Malek
modeling of catalyst structure degradation in PEM fuel cells by Jeremy P. Meyers
modeling water management in PEM fuel cells by Adam Z. Weber, Ryan Balliet, Haluna P. Gunterman and John Newman
modeling electrochemical storage devices for automotive applications by Mark W. Verbrugge
From reviews of previous volumes:
"This long-standing series continues its tradition of offering high quality reviews of established and emerging subject areas, together with the less common aspects of electrochemical science ... Deserves a place in electrochemistry libraries and should prove useful to electrochemists and related workers."
-Chemistry and Industry
"Continues the valuable service that has been rendered by the Modern Aspects series."
- Journal of Electroanalytical Chemistry
"Will definitely be of much use toresearchers in the field of electrochemistry... The editors of this well-produced volume deserve all appreciation for maintaining the excellent standard of the series."
- Bulletin of Electrochemistry
"Extremely well-referenced and very readable ... Maintains the overall high standards of the series."
- Journal of the American Chemical Society
No. 43
Edited by Mordechay Schlesinger
University of Windsor, Ontario, Canada
This volume contains eight chapters dealing with modeling and numeric simulations. Topics in Number 43 include:
mathematical modeling in electrochemistry using finite element and finite difference methods by Mordechay Schlesinger
modeling atomic systems of more than two bodies by G.W.F. Drake
modeling impedance of porous electrodes, in order to permit optimal utilization of the active electrode material by Andrzej Lasia
multi-scale mass transport in porous silicon gas by Peter A. Kottke, Andrei G. Fedorov and James L. Gole
physical theory, molecular simulation, and computational electrochemistry for PEM fuel cells, with emphasis on fundamental understanding, diagnostics, and design by Michael Eikerling and Kourosh Malek
modeling of catalyst structure degradation in PEM fuel cells by Jeremy P. Meyers
modeling water management in PEM fuel cells by Adam Z. Weber, Ryan Balliet, Haluna P. Gunterman and John Newman
modeling electrochemical storage devices for automotive applications by Mark W. Verbrugge
From reviews of previous volumes:
"This long-standing series continues its tradition of offering high quality reviews of established and emerging subject areas, together with the less common aspects of electrochemical science ... Deserves a place in electrochemistry libraries and should prove useful to electrochemists and related workers."
-Chemistry and Industry
"Continues the valuable service that has been rendered by the Modern Aspects series."
- Journal of Electroanalytical Chemistry
"Will definitely be of much use toresearchers in the field of electrochemistry... The editors of this well-produced volume deserve all appreciation for maintaining the excellent standard of the series."
- Bulletin of Electrochemistry
"Extremely well-referenced and very readable ... Maintains the overall high standards of the series."
- Journal of the American Chemical Society
From the reviews:
"The present book is devoted to numerical simulation and modeling within the large field of electrochemistry. It is divided in eight chapters. ... In conclusion it can be stated that the present book is surely worth of being incorporated in the library of scientists and engineers, working in the field of modeling electrochemical processes and systems." (T. Eichler, Materials and Corrosion, Vol. 62 (3), 2011)
"The present book is devoted to numerical simulation and modeling within the large field of electrochemistry. It is divided in eight chapters. ... In conclusion it can be stated that the present book is surely worth of being incorporated in the library of scientists and engineers, working in the field of modeling electrochemical processes and systems." (T. Eichler, Materials and Corrosion, Vol. 62 (3), 2011)