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This volume is an introductory resource aimed at practitioners of electrochemistry research mainly at the atomic, molecular or macromolecular levels. The material covered provides understanding of electrochemical phenomena and materials at the nanoscale.
The present volume is the second in a two-volume set dealing with modelling and numerical simulations in electrochemistry. Emphasis is placed on the aspect of nanoelectrochemical issues. It seems appropriate at this juncture to mention the n- growing body of opinion in some circles that George Box was right when he stated, three decades ago, that All models are wrong, but some are useful. Actually, when the statement itself was made it would have been more appropriate to say that All models are inaccurate but most are useful nonetheless. At present, however, the statement, as it was made, is far more appropriate and closer to the facts than ever before. Currently, we are in the midst of the age of massively abundant data. Today's philosophy seems to be that we do not need to know why one piece of information is better than another except through the statistics of incoming and outgoing links between information and this is good enough. It is why, both in principle and in practice, one can translate between two languages, without knowledge of either. While none of this can be ignored, and it may even be true that All models are wrong and increasingly you can succeed without them the traditional approach of scienti?c modelling is still the order of the day. That approach may be stated as hypothesize measure model test. It is in this light that the present volume should be viewed.
Includes supplementary material: sn.pub/extras
Autorentext
Schlesinger, Mordechay, PhD, is a professor in the Department of Physics at the University of Windsor, Ontario, Canada.
Klappentext
MODERN ASPECTS OF ELECTROCHEMISTRY
No. 44
Edited by Mordechay Schlesinger
University of Windsor, Windsor, Ontario, Canada
Topics in Number 44 include:
The basic mathematical models which arise in some electrochemical processes in regards to galvanic corrosion phenomena
Near field transducers and their related applications to nano-chemistry and electrochemistry
How symmetry considerations play a major role in modern scientific computation
The methods used in the analysis of electrochemical systems, including computer simulations and quantum and statistical mechanics
The techniques used to investigate ionic and solvent transfer and transport in electroactive materials
Monte Carlo simulations of the underpotential deposition of metal layers on metallic substrates
The range of models applied to localized corrosion processes and a review of recent work on the modeling of pitting corrosion
Descriptions of the conceptual structure of Density-Functional Theory and its practical applications
Whether scanning acoustic microscopy can be applied to nano-scaled electrochemically deposited thin film systems
The processes and equations underlying the modeling of the current distribution in electrochemical cells
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 Aspectsseries."
"Will definitely be of much use to researchers in the field of electrochemistry The editors of this well-produced volume deserve all appreciation for maintaining the excellent standard of the series."
"Extremely well-referenced and very readable Maintains the overall high standards of the series."
Inhalt
Numerical Modeling of Certain Electrochemical Processes.- Near-Field Optics for Heat-Assisted Magnetic Recording (Experiment, Theory, and Modeling).- Symmetry Considerations in the Modelling of LightMatter Interactions in Nanoelectrochemistry.- Applications of Computer Simulations and Statistical Mechanics in Surface Electrochemistry.- AC-Electrogravimetry Investigation in Electroactive Thin Films.- Monte Carlo Simulations of the Underpotential Deposition of Metal Layers on Metallic Substrates: Phase Transitions and Critical Phenomena.- Topics in the Mathematical Modeling of Localized Corrosion.- Density-Functional Theory in External Electric and Magnetic Fields.- Acoustic Microscopy Applied to NanoStructured Thin Film Systems.- Current Distribution in Electrochemical Cells: Analytical and Numerical Modeling.