スポンサーリンク
Department of Electronic Engineering, Faculty of Engineering, Osaka University | 論文
- Dependence of Poly(3-alkylthiophene) Film Properties on Electrochemical Polymerization Conditions and Alkyl Chain Length
- Kinetics of Dopant Diffusion in Poly(3-alkylthiophene) Films Studied by Chronoabsorptometric Method
- Electrochemical Properties of Poly(3-alkylthiophene) Gel and Its Characteristics as an Electrode Active Material in Secondary Battery
- Dynamic Characteristics of Bimorph with Conducting Polymer Gel
- Solvent Effects on Gel Characteristics of Conducting Polymer
- Electrochermical Properties of Poly(isothianaphthene)
- Photoluminescence in Copolymers of Poly(p-phenylene vinylene) and Poly(2,5-dimethoxy-p-phenylene vinylene)
- Size Dependence of Response Time of Volume Instability in Conducting Polymer Gel
- Optical and Magnetic Properties of Electrochemically Doped p- and n-Type Poly(3-hexylthiophene)
- N-Type Doping Properties and Electronic States of Poly(2,5-thienylene vinylene)
- Preparation of Glass-Conducting Polymer Composite by Sol-Gel Method and Its Property
- Changes in Purine Metabolism and Production of Oxygen Free Radicals by Intermittent Partial Umbilical Cord Occlusion in Chronically Instrumented Fetal Lambs
- New Computed Tomography Algorithm of Electrostatic Force Microscopy Based on the Singular Value Decomposition Combined with the Discrete Fourier Transform
- Measurement of the Evanescent Field Using Noncontact Mode Atomic Force Microscope
- Contrast of Atomic-Resolution Images from a Noncontact Ultrahigh-Vacuum Atomic Force Microscope
- Atomically Resolved InP(110) Surface Observed with Noncontact Ultrahigh Vacuum Atomic Force Microscope
- Atomic-Resolution Imaging of ZnSSe(110) Surface with Ultrahigh-Vacuum Atomic Force Microscope (UHV-AFM)
- Electrooptic Modulation in the Optical Waveguide Using Ferroelectric Liquid Crystal
- Hybrid Optical Bistability and Limiting in Ferroelectric Liquid Crystals
- Soft Mode Contribution around Sm A-Sm C* Phase Transition Temperature under DC Bias Field in Ferroelectric Liquid Crystal : Condensed Matter