スポンサーリンク
National Institute of Advanced Industrial and Science Technology (AIST) | 論文
- Schematic Model for the Migration of Interstitialcy-Type Self-Interstitial Including the Middle State
- Enhancement of Electroluminescence Intensity from Dye-Doped Poly(3-Alkylthiophene) Light Emitting Diode with Different Alkyl-Side-Chain Length
- Electroluminescent Diodes Utilizing Polysilanes
- Polarity-Dependent Multicolor Organic Electroluminescent Device
- Two-Band Electroluminescent Emission in Organic Electroluminescent Diode with Phthalocyanine Film
- Pulse Response of Electroluminescence in Poly(3-alkylthiophene) Mixed with Fluorescent Dye
- Ultraviolet Electroluminescent Diode Utilizing Poly(methylphenylsilane)
- Unique Electroluminescent Characteristics of Light-Emitting Diode Utilizing Poly(3-alkylthiophene) Containing Fluorescent Dye
- Novel Characteristics of Electrolumimescent Diode with Organic Multiple-Quantum-Well Structure
- Conformational Characteristics of Poly-ether-ether-ketone and Poly-ether-nitrile
- Polarization Anisotropy of Organic Electroluminescent Diode with Periodic Multilayer Structure Utilizing 8-Hydroxyquinoline Aluminum and Aromatic Diamine
- Color-Variable Electroluminescent Diode with Single Quantum Well Structure Utilizing 8-Hydroxyquinoline Aluminum and Aromatic Diamine
- Efficient Energy Transfer in Organic Multilayer Structure Utilizing 8-Hydroxyquinoline Aluminum and Aromatic Diamine
- Unique Dynamic Characteristics of Electroluminescent Diode with Superlattice Structure Utilizing Cyclopentadiene Derivative and Aromatic Diamine
- Novel Optical and Electroluminescent Characteristics in Organic Superlattice Structure Utilizing Cyclopentadiene Derivative and Aromatic Diamine
- Contour Detection of Underground Cylindrical Cavities by Means of Acoustic Pulse Reflection Method
- Characterization of Ion Implantation Dose by Raman Scattering and Photothermal Wave Techniques
- Secondary Defects of As^+ Implanted Silicon Measured by Thermal Wave Technique
- Unprecedentedly Fast DNA Hydrolysis by the Synergism of the Cerium(IV)-Praseodymium(III)and the Cerium(IV)-Neodymium(III)Combinations^1
- DNA Hydrolysis by Cerium(IV) Does Not Involve either Molecular Oxygen or Hydrogen Peroxide