Rüdiger Memming
Semiconductor Electrochemistry (eBook, PDF)
Schade – dieser Artikel ist leider ausverkauft. Sobald wir wissen, ob und wann der Artikel wieder verfügbar ist, informieren wir Sie an dieser Stelle.
Rüdiger Memming
Semiconductor Electrochemistry (eBook, PDF)
- Format: PDF
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei
bücher.de, um das eBook-Abo tolino select nutzen zu können.
Hier können Sie sich einloggen
Hier können Sie sich einloggen
Sie sind bereits eingeloggt. Klicken Sie auf 2. tolino select Abo, um fortzufahren.
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei bücher.de, um das eBook-Abo tolino select nutzen zu können.
Providing both an introduction and an up-to-date survey of the entire field, this text captivates the reader with its clear style and inspiring, yet solid presentation. The significantly expanded second edition of this milestone work is supplemented by a completely new chapter on the hot topic of nanoparticles and includes the latest insights into the deposition of dye layers on semiconductor electrodes. In his monograph, the acknowledged expert Professor Memming primarily addresses physical and electrochemists, but materials scientists, physicists, and engineers dealing with semiconductor…mehr
- Geräte: PC
- eBook Hilfe
Providing both an introduction and an up-to-date survey of the entire field, this text captivates the reader with its clear style and inspiring, yet solid presentation. The significantly expanded second edition of this milestone work is supplemented by a completely new chapter on the hot topic of nanoparticles and includes the latest insights into the deposition of dye layers on semiconductor electrodes. In his monograph, the acknowledged expert Professor Memming primarily addresses physical and electrochemists, but materials scientists, physicists, and engineers dealing with semiconductor technology and its applications will also benefit greatly from the contents.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH
- Seitenzahl: 484
- Erscheinungstermin: 12. Februar 2015
- Englisch
- ISBN-13: 9783527688715
- Artikelnr.: 42475115
- Verlag: Wiley-VCH
- Seitenzahl: 484
- Erscheinungstermin: 12. Februar 2015
- Englisch
- ISBN-13: 9783527688715
- Artikelnr.: 42475115
After gaining his doctorate in Stuttgart, Rüdiger Memming spent three years as a post-doctorate fellow under Prof. Livingston at the School of Chemistry, University of Minnesota, USA, before joining Philips in 1960, where he worked at their research laboratories in Hamburg. In 1974 he gained his lecturing qualification in physical chemistry at Hamburg University, where he remained as professor until his retirement in 1994. From 1987 to 1994 he also headed the newly founded Institute for Solar Energy Research in Hanover, and was awarded grants to research at several institutes in Japan and the USA. Professor Memming lives in Hamburg where he still actively participates in discussions surrounding semiconductor electrochemistry.
Preface PRINCIPLES OF SEMICONDUCTOR PHYSICS Crystal Structure Energy Levels in Solids Optical Properties Density of States and Carrier Concentrations Carrier Transport Phenomena Excitation and Recombination of Charge Carriers Fermi Levels under Nonequilibrium Conditions SEMICONDUCTOR SURFACES AND SOLID-SOLID JUNCTIONS Metal and Semiconductor Surfaces in a Vacuum Metal-Semiconductor Contacts (Schottky Junctions) p-n Junctions Ohmic Contacts Photovoltages and Photocurrents Surface Recombination ELECTROCHEMICAL SYSTEMS Electrolytes Potentials and Thermodynamics of Electrochemical Cells EXPERIMENTAL TECHNIQUES Electrode Preparation Current-Voltage Measurements Measurements of Surface Recombination and Minority Carrier Injection Inpededance Measurements Surface Conductivity Measurements Flash Photolysis Investigations Surface Science Techniques SOLID-LIQUID INTERFACE Structure of the Interface and Adsorption Charge and Potential Distribution at the Interface Analysis of the Potential Distribution Modification of Semiconductor Surfaces ELECTRON TRANSFER THEORIES The Theory of Marcus The Gerischer Model Quantum Mechanical Treatments of Electron Transfer Processes The Problem of Deriving Rate Constants Comparison of Theories CHARGE TRANSFER PROCESSES AT THE SEMICONDUCTOR-LIQUID INTERFACE Charge Transfer Processes at Metal Electrodes Qualitative Description of Current-Potential Curves at Semiconductor Electrodes One-Step Redox Reactions The Quasi-Fermi Level Concept Determination of the Reorganization Energy Two-Step Redox Processes Photoluminescence and Electroluminescence Hot Carrier Processes Catalysis of Electrode Reactions ELECTROCHEMICAL DECOMPOSITION OF SEMICONDUCTORS Anodic Dissolution Reactions Cathodic Decomposition Dissolution under Open Circuit Conditions Energetics and Thermodynamics of Corrosion Competition between Redox Reaction and Anodic Dissolution Formation of Porous Semiconductor Surfaces PHOTOREACTIONS AT SEMICONDUCTOR PARTICLES Quantum Size Effects Charge Transfer Processes at Semiconductor Particles Charge Transfer Processes at Quantum Well Electrodes (MQW, SQW) Photoelectrochemical Reactions at Nanocrystalline Semiconductor Layers ELECTRON TRANSFER PROCESSES BETWEEN EXCITED MOLECULES AND SEMICONDUCTOR ELECTRODES Energy Levels of Excited Molecules Reactions at Semiconductor Electrodes Comparison with Reactions at Metal Electrodes Production of Excited Molecules by Electron Transfer APPLICATIONS Photoelectrochemical Solar Energy Conversion Photocatalytic Processes Etching of Semiconductors Light-Induced Metal Deposition APPENDICES List of Major Symbols Physical Constants Lattice Parameters of Semiconductors Properties of Important Semiconductors Effective Density of States and Intrinsic Densities Major Redox Systems and Corresponding Standard Potentials Potentials of Reference Electrodes Index
Preface PRINCIPLES OF SEMICONDUCTOR PHYSICS Crystal Structure Energy Levels in Solids Optical Properties Density of States and Carrier Concentrations Carrier Transport Phenomena Excitation and Recombination of Charge Carriers Fermi Levels under Nonequilibrium Conditions SEMICONDUCTOR SURFACES AND SOLID-SOLID JUNCTIONS Metal and Semiconductor Surfaces in a Vacuum Metal-Semiconductor Contacts (Schottky Junctions) p-n Junctions Ohmic Contacts Photovoltages and Photocurrents Surface Recombination ELECTROCHEMICAL SYSTEMS Electrolytes Potentials and Thermodynamics of Electrochemical Cells EXPERIMENTAL TECHNIQUES Electrode Preparation Current-Voltage Measurements Measurements of Surface Recombination and Minority Carrier Injection Inpededance Measurements Surface Conductivity Measurements Flash Photolysis Investigations Surface Science Techniques SOLID-LIQUID INTERFACE Structure of the Interface and Adsorption Charge and Potential Distribution at the Interface Analysis of the Potential Distribution Modification of Semiconductor Surfaces ELECTRON TRANSFER THEORIES The Theory of Marcus The Gerischer Model Quantum Mechanical Treatments of Electron Transfer Processes The Problem of Deriving Rate Constants Comparison of Theories CHARGE TRANSFER PROCESSES AT THE SEMICONDUCTOR-LIQUID INTERFACE Charge Transfer Processes at Metal Electrodes Qualitative Description of Current-Potential Curves at Semiconductor Electrodes One-Step Redox Reactions The Quasi-Fermi Level Concept Determination of the Reorganization Energy Two-Step Redox Processes Photoluminescence and Electroluminescence Hot Carrier Processes Catalysis of Electrode Reactions ELECTROCHEMICAL DECOMPOSITION OF SEMICONDUCTORS Anodic Dissolution Reactions Cathodic Decomposition Dissolution under Open Circuit Conditions Energetics and Thermodynamics of Corrosion Competition between Redox Reaction and Anodic Dissolution Formation of Porous Semiconductor Surfaces PHOTOREACTIONS AT SEMICONDUCTOR PARTICLES Quantum Size Effects Charge Transfer Processes at Semiconductor Particles Charge Transfer Processes at Quantum Well Electrodes (MQW, SQW) Photoelectrochemical Reactions at Nanocrystalline Semiconductor Layers ELECTRON TRANSFER PROCESSES BETWEEN EXCITED MOLECULES AND SEMICONDUCTOR ELECTRODES Energy Levels of Excited Molecules Reactions at Semiconductor Electrodes Comparison with Reactions at Metal Electrodes Production of Excited Molecules by Electron Transfer APPLICATIONS Photoelectrochemical Solar Energy Conversion Photocatalytic Processes Etching of Semiconductors Light-Induced Metal Deposition APPENDICES List of Major Symbols Physical Constants Lattice Parameters of Semiconductors Properties of Important Semiconductors Effective Density of States and Intrinsic Densities Major Redox Systems and Corresponding Standard Potentials Potentials of Reference Electrodes Index