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Department of Applied Chemistry, Faculty of Engineering, Hiroshima University | 論文
- Effects of Cresol-Sulfonic Acid on Redox Behavior of Polyaniline
- Nuclear Magnetic Resonance Spectroscopic Study on the Grafting of Ethylene Oxide onto the Interlayer Surface of γ-Zirconium Phosphate
- Selective Oxidation of Phenols to Hydroxybenzaldehydes and Benzoquinones with Dioxygen Catalyzed by Polymer-Supported Copper
- Selective Synthesis of Chlorohydrogermanes from Mono-, Di-, and Trihydrogermanes
- Ring-Opening Reactions of Alkanone Acetals with Iodosilane Equivalents for the Formation of Siloxyalkyl Enol Ethers
- 3-Picoline Oxidation over Monoclinic Orthovanadate Cr_Al_Vo_4 Catalysts
- The ESR Spectra, Electronic Structure, and Thermal Reactivity of Fluoroethane Cations
- Intravital imaging of DSS-induced cecal mucosal damage in GFP-transgenic mice using two-photon microscopy
- Syntheses and Properties of Novel Dimeric Tetrathiafulvalenes Linked with an Ethenylene or Ethynylene Spacer
- Synthesis of Solid Solutions in a System of LiCoO_2-Li_2MnO_3 for Cathode Materials of Secondary Lithium Batteries
- Effect of Vapor Adsorption on the Photoelectron Emission from Gold in Ambient Atmosphere
- Analysis of Light Propagation in a Three-Dimensional Realistic Head Model for Topographic Imaging by Finite Difference Method
- メソポア構造を有する活性炭繊維の電気二重層キャパシタへの適応
- Living Polymerizations of Polar and Nonpolar Monomers by the Catalysis of Organo Rare Earth Metal Complexes
- 芳香族ユニットを含む脂肪族系ポリエステルの合成,鎖延長,および酵素分解性
- Ring-Opening Metathesis Polymerization of Norbornene with Catecholato Complexes of Tungsten(VI) as Effective Catalyst Precursors
- Energy Barrier Height for Electron Injection in Organic Electroluminescent Devices with Dithienosilole
- Multilayer Organic Electroluminescent Device with Dithienosilole Derivative
- Significant Effect of Molecular Structure on Surface Relief Grating Formation for Novel Azobenzene-Based Photochromic Amorphous Molecular Materials
- Comparative Studies of the Formation of Surface Relief Grating. Amorphous Molecular Material vs Vinyl Polymer