In this topical volume, the authors provide in-depth coverage of the vital relationship between electrochemistry and the morphology of thin films and surfaces. Clearly divided into four major sections, the book covers nanoscale dielectric films for electronic devices, superconformal film growth, electrocatalytic properties of transition metal macrocycles, and the use of synchrotron techniques in electrochemistry. All the chapters offer a concise introduction to the relevant topic, as well as supplying numerous references for easy access to further reading and the original literature. The…mehr
In this topical volume, the authors provide in-depth coverage of the vital relationship between electrochemistry and the morphology of thin films and surfaces. Clearly divided into four major sections, the book covers nanoscale dielectric films for electronic devices, superconformal film growth, electrocatalytic properties of transition metal macrocycles, and the use of synchrotron techniques in electrochemistry. All the chapters offer a concise introduction to the relevant topic, as well as supplying numerous references for easy access to further reading and the original literature. The result is must-have reading for electrochemists, physical and surface chemists and physicists, as well as materials scientists and engineers active in the field of spectroscopic methods in electrochemistry.
Produktdetails
Produktdetails
Advances in Electrochemical Sciences and Engineering
Richard C. Alkire, Department of Chemical Engineering, University of Illinois, Urbana, USA
Dieter M. Kolb, Department of Electrochemistry, University of Ulm, Germany
Jacek Lipkowski, Department of Chemistry, University of Guelph, Canada
Philip N. Ross, Materials Science Department, Lawrence Berkeley National Laboratory, Berkeley, USA
Inhaltsangabe
Valve Metal, Silicon and Ceramic Oxide Dielectric Films for Electronic Devices Superconformal Film Growth Transition Metal Macrocycles as Electrocatalysts for Dioxygen Reduction Multiscale Modeling and Design of Electrochemical Systems
Valve Metal, Silicon and Ceramic Oxide Dielectric Films for Electronic Devices Superconformal Film Growth Transition Metal Macrocycles as Electrocatalysts for Dioxygen Reduction Multiscale Modeling and Design of Electrochemical Systems
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