Electro-Optical and Capacitive Characteristics of Stratified Polymer/Liquid Crystal Composite Devices under DC Electric Field
スポンサーリンク
概要
- 論文の詳細を見る
This study focuses on the observation of distinct electro-optical and capacitive properties of a stratifiedly phase-separated polymer/liquid crystal composite film under dc electric fields with opposite polarities. The voltage-dependent transmittance and capacitance as well as time-evolved transmittance were measured for the two field-application conditions. The experimental results suggest that the dc electro-optical and electrically capacitive characteristics of the asymmetrically structured composite film sandwiched between two conductive glass substrates are sensitive to the polarity of the applied field due to the selective adsorption of positive charge by the single alignment layer of nylon 6.
- Japan Society of Applied Physicsの論文
- 2010-11-25
著者
-
LEE Wei
Department of Electronics Engineering, National Chiao Tung University
-
Tang Chen-yu
Master Program In Nanotechnology Chung Yuan Christian University
-
Lee Wei
Department Of Physics Chung Yuan Christian University
-
Wu Chong-yin
Department Of Physics Chung Yuan Christian University
-
Lee Wei
Department Of Electrical Engineering Tamkang University
-
Lee Wei
Chung Yuan Christian Univ. Chungli Twn
関連論文
- Modeling Geometry-Dependent Floating-Body Effect Using Body-Source Built-In Potential Lowering for SOI Circuit Simulation
- 台湾の犬における初めての東洋眼虫感染症例(寄生虫病学)
- Scheduling Delay Minimization for Non-UGS Data in Multi-Channel HFC Network(Fiber-Optic Transmission for Communications)
- Investigation of Inversion C-V Reconstruction for Long-Channel MOSFETs with Leaky Dielectrics using Intrinsic Input Resistance Approach
- APPLICATION OF LAYERED INORGANIC MATERIALS IN RECTIFICATION OF ELECTRO-OPTICAL PROPERTIES OF NEMATIC LIQUID CRYSTALS AND POLYMER-ENCAPSULATED LIQUID CRYSTALS
- Electro-Optical and Capacitive Characteristics of Stratified Polymer/Liquid Crystal Composite Devices under DC Electric Field
- Modeling Geometry-Dependent Floating-Body Effect using Body-Source Built-In Potential Lowering for Scaled SOI CMOS
- Epidemiologic Study of Epilepsy in Young Singaporean Men
- Electro-Optical Characteristics of a Twisted Nematic Liquid-Crystal Cell Doped with Carbon Nanotubes in a DC Electric Field
- Switching of Defect Modes in a Photonic Structure with a Tristable Smectic-A Liquid Crystal
- Color-Reflective Dual-Frequency Cholesteric Liquid Crystal Displays and Their Drive Schemes
- Switching of Defect Modes in a Photonic Structure with a Tristable Smectic-A Liquid Crystal
- Investigation of Inversion Capacitance–Voltage Reconstruction for Metal Oxide Semiconductor Field Effect Transistors with Leaky Dielectrics using BSIM4/SPICE and Intrinsic Input Resistance Model
- Electrical and Electro-Optical Properties of Nematic-Liquid-Crystal–Montmorillonite-Clay Nanocomposites
- Observation of Transient Current in a Nanotube-Doped Liquid-Crystal Cell Induced by a Polarity-Reversed Field
- Photovoltaic and Spectral Properties of Conjugated Polymer Poly(3-octylthiophene) Doped with Various Acceptor Materials
- Laboratory Fourier-Transform Terahertz Spectroscopy for Molecular Ices of Astrophysical Interest: Solid CO as an Example
- Modeling Geometry-Dependent Floating-Body Effect Using Body-Source Built-In Potential Lowering for SOI Circuit Simulation
- Improved Electric Properties of Degraded Liquid Crystal Using Metal--Organic Frameworks