スポンサーリンク
Department of Synthetic Chemistry, Faculty of Engineering, Nagoya University | 論文
- Clay montmorillonite-catalyzed aldol reactions of silyl ketene acetals with carbonyl compounds.
- Energy Transfer in the Radiolysis of Neopentane-Alkane Mixture in the Solid Phase at 77 K
- A new type of iminocarbonylaton of diols, mercaptoalkanol, and dithiol via their dibutylstannyl derivatives.
- Luminescence from 2,3-Dimethylbutane Containing Toluene in the Solid Phase at 77°K during γ-Irradiation
- Excitation Transfer in the Radiolysis of Solid Alkane Mixtures at 77 K
- Effect of Phase on Hot Hydrogen Atom Abstraction Reaction with Solid Isobutane as Studied by Electron Spin Resonance Spectroscopy
- Mechanism of High-energy-induced Luminescence of Solid 2,3-Dimethylbutane Containing Toluene at 77 K
- Selective hydrogen atom abstraction by hydrogen atoms in photolysis and radiolysis of alkane mixtures at 77 K.
- The Role of Reaction Sites in the Radiolysis of Solid Succinic Acid
- New application of solid acid to carbon-carbon bond formation reactions: Clay montmorillonite-catalyzed aldol reactions of silyl enol ethers with aldehydes and acetals.
- Silica-supported heteropoly acid catalyst for liquid-phase Friedel-Crafts reactions.
- ESR spectra of nitric oxide adsorbed on ZrO2, CeO2, and ThO2.
- Bifunctional oxidation of ammonia with metal oxide-Pt/Al2O3 mechanical mixtures.
- Quantitative interpretation of infrared diffuse reflectance spectra over whole concentration range.
- Pyrolysis-Gas Chromatographic Analysis of Vinylchloride-Vinylacetate Copolymer
- The characteristic behavior of recoil tritium atom in solid neopentane at 77K. The application of a hot zone model.
- A Photoconductivity Study of Trapped Ionic Species in γ-Irradiated Ethylcyclohexane Glass at 77 K
- A Further Study of the Scavengeable Electron Yield in the Radiolysis of Hydrocarbon Glasses at −196°C
- Scavengeable Electron Yield in the Radiolysis of Liquid and Solid Hydrocarbons
- A magnetic resonance study of the Fe2O3/Al2O3 catalyst in a CO-N2O reaction.