Field Effect in Semiconductor-Electrolyte Interfaces
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A01=Adil M. Yafyasov
A01=Pavel P. Konorov
A01=Vladislav B. Bogevolnov
Absorption spectroscopy
Adsorption
Annealing (metallurgy)
Attenuator (electronics)
Author_Adil M. Yafyasov
Author_Pavel P. Konorov
Author_Vladislav B. Bogevolnov
Capacitance
Category=PHK
Charge density
Chemical bond
Chemical potential
Condensed matter physics
Conductivity (electrolytic)
Current-voltage characteristic
Differential capacitance
Doping (semiconductor)
Effective mass (solid-state physics)
Electric charge
Electric field
Electric potential
Electrical energy
Electrical resistivity and conductivity
Electrochemical cell
Electrochemistry
Electrode
Electrode potential
Electroluminescence
Electrolyte
Electron affinity
Electron capture
Electron density
Electron diffraction
Electron hole
Electron mobility
Electron transfer
Electronic band structure
Electronic effect
Electronic structure
Electronics
Energy level
eq_bestseller
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
Extrinsic semiconductor
Fermi level
Field effect (semiconductor)
Field electron emission
Insulator (electricity)
Intrinsic semiconductor
Ion exchange
Ionization
Magnetic field
Magnetoresistance
Materials science
Photoelectric effect
Piezoelectricity
Polarization density
Quantum Hall effect
Quantum limit
Quantum mechanics
Quantum tunnelling
Quantum wire
Reference electrode
Semiconductor
Semiconductor device
Standard electrode potential
Superconductivity
Surface charge
Surface conductivity
Surface states
Synchrotron
Thermodynamic equilibrium
Two-dimensional electron gas
Voltage
Wide-bandgap semiconductor
X-ray photoelectron spectroscopy
Product details
- ISBN 9780691121765
- Weight: 425g
- Dimensions: 152 x 235mm
- Publication Date: 03 Oct 2006
- Publisher: Princeton University Press
- Publication City/Country: US
- Product Form: Hardback
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This book presents a state-of-the-art understanding of semiconductor-electrolyte interfaces. It provides a detailed study of semiconductor-electrolyte interfacial effects, focusing on the physical and electrochemical foundations that affect surface charge, capacitance, conductance, quantum effects, and other properties, both from the point of view of theoretical modeling and metrology. The wet-dry interface, where solid-state devices may be in contact with electrolyte solutions, is of growing interest and importance. This is because such interfaces will be a key part of hydrogen energy and solar cells, and of sensors that would have wide applications in medicine, genomics, environmental science, and bioterrorism prevention. The field effect presented here by Pavel Konorov, Adil Yafyasov, and Vladislav Bogevolnov is a new method, one that allows investigation of the physical properties of semiconductor and superconductor surfaces. Before the development of this method, it was impossible to test these surfaces at room temperature.
The behavior of electrodes in electrolytes under such realistic conduction conditions has been a major problem for the technical realization of systems that perform measurements in wet environments. This book also describes some material properties that were unknown before the development of the field effect method. This book will be of great interest to students and engineers working in semiconductor surface physics, electrochemistry, and micro- and nanoelectronics.
Pavel P. Konorov is Professor of Physics at St. Petersburg State University and a member of the Russian Academy of Natural Sciences. Adil M. Yafyasov is Professor of Physics at St. Petersburg State University. Vladislav B. Bogevolnov is Associate Professor of Physics at St. Petersburg State University.
