Maxwell Displacement Current And Optical Second-harmonic Generation In Organic Materials: Analysis And Application For Organic Electronics
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A01=Dai Taguchi
A01=Mitsumasa Iwamoto
Ambipolar Transistor
Aromatic Compound
Author_Dai Taguchi
Author_Mitsumasa Iwamoto
Bioelectronics
Bulk-Heterojunction Solar Cell
Carrier Behaviour
Carrier Mechanism
Carrier Mobility
Carrier Process
Category=PHFC
Cell
Characterization Method
Charge Modulation Spectroscopy
Chirality
Condensed Matter
Condensed Matter Physics
Conduction Current
Defect
Degradation
Device Physics
Dielectric Physics
Dielectric Relaxation Time
Dipole
Electric Field
Electric-Field-Induced Optical Second-Harmonic Generation
Electrical Breakdown
Electrical Circuit
Electroluminescence
Electromagnetic Theory
Electronic Device
Electronics
Electrostatics
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Evaluation Method
Ferroelectrics
Field-Effect Transistor
Flexible Electronics
Flexoelectric Effect
Friction
Functional Material
Heterocyclic Molecule
High-Voltage Engineering
Impurity
Inorganic Chemistry
Interface
Interfacial Polarization
International Standard
Ion
Langmuir Film
Light-Emitting Diode
Light-emitting Transistor
Liquid Crystal
Low Dimensional System
Material Science
Maxwell Displacement Current
Maxwell-Wagner Effect
Memory
Memory Transistor
Microscopy
Monolayer
Multiphoton Process
Nonlinear Optics
Optical Second-Harmonic Generation
Optical Third-Harmonic Generation
Organic Chemistry
Organic Electronics
Organic Laser
Organic Materials
Organic Semiconductor
Orientational Order Parameter
Phase Transition
Photoconductor
Photolysis
Photosynthesis
Physico-Chemical Property
Piezoelectric Effect
Polar Molecule
Polarizability
Polymer
Pre-Electrical Breakdown Phenomena
Printed Electronics
Rubbing
Self-Assemble Monolayer
Semiconductor Physics
Simulation
Soft Matter
Solar Cell
Space Charge
Spectroscopy
Statistical Physics
Surface
Susceptibility
Symmetry Breaking
Thermally Stimulated Current
Thermally Stimulated Depolarization Current
Thermodynamics
Time-of-Light
Time-Resolved Microscopic Optical Second-Harmonic Generation
Transit Time
Triboelectric Series
Triboelectrification
Tribology
Two Dimensional System
Product details
- ISBN 9789811236945
- Publication Date: 28 Jun 2021
- Publisher: World Scientific Publishing Co Pte Ltd
- Publication City/Country: SG
- Product Form: Hardback
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The probing and modeling of carrier transport in materials is a fundamental research subject in electronics and materials science. According to the Maxwell electromagnetic field theory, there are two kinds of currents, i.e., conduction current and Maxwell displacement current (MDC). The conduction current flows when electronic charges, e.g., electrons and holes, are conveyed in solids, whereas MDC is the transient current that is generated due to the change of electric flux density. The source of conductive current is charged particles, i.e., electrons, holes, ions, etc., and the source of MDC is also the charged particles. It is therefore anticipated that we can probe and model carrier transport in materials, in terms of "MDC". In other words, we can find a novel way for modeling and analyzing materials on the basis of Dielectric Physics Approach, on focusing dielectric polarization phenomena. Maxwell Displacement Current and Optical Second-Harmonic Generation are basically dielectric phenomena. The aim of this book is to show the dielectric physics approach for the study of molecular materials and organic electronics devices related to carrier transport and dielectric polarization, on focusing Maxwell Displacement Current and Optical Second-Harmonic Generation in Organic Materials from viewpoints of Analysis and Application for Organic Electronics.
