Nanoelectrochemistry

 Content: Front Cover; Contents; Preface; Editors; Contributors; Chapter 1: Electron Transfer in Nanoelectrochemical Systems; Chapter 2: Electrical Double-Layer Effects on Electron Transfer and Ion Transport at the Nanoscale; Chapter 3: Electrochemistry of Monolayer-Protected Clusters; Chapter 4: Platinum-Monolayer Oxygen-Reduction Electrocatalysts : Present Status and Future Prospects; Chapter 5: Photoelectrochemistry with Nanostructured Semiconductors; Chapter 6: Single-Molecule Nanoelectronics; Chapter 7: Electron Transport and Redox Reactions in Solid-State Molecular Electronic Devices Chapter 8: Stochastic Events in Nanoelectrochemical SystemsChapter 9: Nanoelectrochemistry of Carbon; Chapter 10: Template-Directed Controlled Electrodeposition of Nanostructure and Composition; Chapter 11: Nanopores and Nanoporous Membranes; Chapter 12: Recent Investigations of Single Living Cells with Ultramicroelectrodes; Chapter 13: Nanobioelectrochemistry : Proteins, Enzymes, and Biosensors; Chapter 14: Electrode Array Probes of Exocytosis at Single-Cell Membranes and Exocytosis Measurements at Cell Biomimetic Systems; Chapter 15: Nanoelectrodes and Liquid/Liquid Nanointerfaces Chapter 16: Microfabricated Electrochemical SystemsChapter 17: Electrodeposition at the Nanoscale; Chapter 18: Scanning Electrochemical Microscopy of Nanopores, Nanocarbons, and Nanoparticles; Chapter 19: Scanning Electrochemical Cell Microscopy : Mapping, Measuring, and Modifying Surfaces and Interfaces at the Nanoscale; Chapter 20: In Situ Atomic Resolution Studies of the Electrode/Solution Interface by Electrochemical Scanning Tunneling Microscopy; Chapter 21: Combined Atomic Force Microscopy-Scanning Electrochemical Microscopy; Chapter 22: Nanoscale Potentiometry; Back Cover
 Abstract:             This book provides an overview of nanoscale electrochemistry in the context of well-established concepts and principles of electrochemistry. It presents fundamental theory with the emphasis on differences between charge-transfer and mass-transfer processes on the nanoscale and analogous reactions occurring at macroscopic electrochemical interfaces. The rigorous theoretical treatment enables readers to gain an in-depth understanding of nanoelectrochemical systems discussed. The book also covers modern electrochemical tools and techniques that enable the fabrication and characterization of elect