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Department Of Electronic Chemistry Tokyo Institute Of Technology | 論文
- Electrocatalytic Reduction of Dioxygen to Water by a Carbon Electrode Coated with(μ-Oxo)bis[meso-tetraphenylporphyrinato)iron(III)]:a Convenient Template for Cofacially Oriented Iron(II)Porphyrins
- An Efficient Route to Cyclic Polymers by ATRP-RCM Process
- More Than 13 Years of Hypereosinophila Associated With Clonal CD3^-CD4^+ Lymphocytosis of T_H2/T_H0 Type
- Sensitization of Nanocrystalline SnO_2 Films with Indoline Dyes
- Dye-sensitized Solar Cells with an Extremely Thin Liquid Film as the Redox Electron Mediator
- 有機電極反応における超音波効果(12)TiO2光触媒による2-プロパノ-ルの酸化反応
- Ultrasonic Effects on Electroorganic Processes. Part 9. Current Efficiency and Product Selectivity in the Electroreduction of Alkyl Halides to Alkyl Stannanes at a Reactive Tin Cathode
- Improved Height Measurement of Single CdSe Colloidal Quantum Dots by Contact-Mode Atomic Fore Microscopy Using Carbon Nano-Tube Tips ; for the Investigation of Current-Voltage Characteristics
- 有機電解反応によるクリーンな選択的フッ素化法の開発と応用 (特集 未来を拓く有機電子移動)
- An Environmentally Friendly Electrolytic System Based on the Acid-Base Reaction between Water and Solid-supported Bases
- Effect of Electron Correlation on the Hydrogen Bond
- Macrostructural order and optical properties of polyfluorene-based polymer films
- Palladium(0)-Catalyzed Domino Cyclization-Carbonylation of Alkenyl-Allenyl-Allylic Acetate
- Novel Pd(0)-Catalyzed Cyclization-Carbonylation of 2-Methyl-1-vinyl-5, 6-heptadienyl Acetate : The Synthesis of(±)-Isoiridomyrmecin
- AnitioxidativeDopantforThermal-Resisting Polypyrrole and Its Mechanism
- Thermal Stabilization of Polypyrrole by Incorporation of Aromatic sulfonate Derivatives as Dopants
- Sonochemical Synthesis of Inorganic-Organic Hybrid Nanocomposite Based on Gold Nanoparticles and Polypyrrole
- The Anti-inflammatory Effect of FR188582, a Highly Selective Inhibitor of Cyclooxygenase-2, With an Ulcerogenic Sparing Effect in Rats
- 有機電解プロセスにおける超音波効果(18)トリアリルアミンレドックスメディエーターによるn-ブチルアミンの間接電解酸化における限界電流の検討
- Diamond Powders Less Than 100nm in Diameter as Effective Solid Lubricants in Vacuum