Buch, Englisch, 484 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 1082 g
ISBN: 978-3-527-31281-8
Verlag: WILEY-VCH
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.
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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
