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Fundamentals of Semiconductor Electrochemistry and Photoelectrochemistry
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Abstract
The sections in this article are
Introduction and Scope
Electron Energy Levels in Semiconductors and Energy Band Model
The Semiconductor–Electrolyte Interface at Equilibrium
The Equilibration Process
The Depletion Layer
Mapping of the Semiconductor Band‐edge Positions Relative to Solution Redox Levels
Surface States and Other Complications
Charge Transfer Processes in the Dark
Current‐potential Behavior
Dark Processes Mediated by Surface States or by Space Charge Layer Recombination
Rate‐limiting Steps in Charge Transfer Processes in the Dark
Light Absorption by the Semiconductor Electrode and Carrier Collection
Light Absorption and Carrier Generation
Carrier Collection
Photocurrent‐potential Behavior
Dynamics of Photoinduced Charge Transfer
Hot Carrier Transfer
Multielectron Photoprocesses
Nanocrystalline Semiconductor Films and Size Quantization
Introductory Remarks
The Nanocrystalline Film–Electrolyte Interface and Charge Storage Behavior in the Dark
Photoexcitation and Carrier Collection: Steady State Behavior
Photoexcitation and Carrier Collection: Dynamic Behavior
Size Quantization
Chemically Modified Semiconductor–Electrolyte Interfaces
Single Crystals
Nanocrystalline Semiconductor Films and Composites
Types of Photoelectrochemical Devices
Conclusion
Acknowledgments
Title: Fundamentals of Semiconductor Electrochemistry and Photoelectrochemistry
Description:
Abstract
The sections in this article are
Introduction and Scope
Electron Energy Levels in Semiconductors and Energy Band Model
The Semiconductor–Electrolyte Interface at Equilibrium
The Equilibration Process
The Depletion Layer
Mapping of the Semiconductor Band‐edge Positions Relative to Solution Redox Levels
Surface States and Other Complications
Charge Transfer Processes in the Dark
Current‐potential Behavior
Dark Processes Mediated by Surface States or by Space Charge Layer Recombination
Rate‐limiting Steps in Charge Transfer Processes in the Dark
Light Absorption by the Semiconductor Electrode and Carrier Collection
Light Absorption and Carrier Generation
Carrier Collection
Photocurrent‐potential Behavior
Dynamics of Photoinduced Charge Transfer
Hot Carrier Transfer
Multielectron Photoprocesses
Nanocrystalline Semiconductor Films and Size Quantization
Introductory Remarks
The Nanocrystalline Film–Electrolyte Interface and Charge Storage Behavior in the Dark
Photoexcitation and Carrier Collection: Steady State Behavior
Photoexcitation and Carrier Collection: Dynamic Behavior
Size Quantization
Chemically Modified Semiconductor–Electrolyte Interfaces
Single Crystals
Nanocrystalline Semiconductor Films and Composites
Types of Photoelectrochemical Devices
Conclusion
Acknowledgments.
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