Niiya T | Faculty Of Pharmaceutical Sciences Fukuoka University
スポンサーリンク
概要
関連著者
-
池田 衡
丸石製薬株式会社中央研究所
-
Niiya T
Faculty Of Pharmaceutical Sciences Fukuoka University
-
Yukawa M
Fukuoka Univ. Fukuoka Jpn
-
IKEDA Hirohito
Faculty of Pharmaceutical Sciences, Fukuoka University
-
Ikeda Hirohito
Faculty Of Pharmaceutical Sciences Fukuoka University
-
Yukawa Miho
Faculty Of Pharmaceutical Sciences Fukuoka University
-
Niiya Tokihiro
Faculty Of Pharmaceutical Sciences Fukuoka University
-
Yukawa Miho
Faculty Of Pharmaceutical Fukuoka University
-
Ikeda Hirohito
Faculty Of Pharmaceutical Fukuoka University
-
後藤 義久
Faculty of Pharmaceutical Sciences Kanazawa University
-
Goto Yoshinobu
Faculty Of Pharmaceutical Sciences Fukuoka University
-
Goto Yoshinobu
Department Of Clinical Neurophysiology Graduate School Of Medical Sciences Neurological Institute Fa
-
SUZUE Takuya
Faculty of Pharmaceutical Sciences, Fukuoka University
-
Suzue Takuya
Faculty Of Pharmaceutical Sciences Fukuoka University
著作論文
- Ab Initio Molecular Orbital Study of the Reactivity of Active Alkyl Groups. VII. Solvent Effects on the Formation of Enolate Isomers from 2-Butanone with Methoxide Anion in Methanol
- Ab Initio Molecular Orbital Study of the Reactivity of Active Alkyl Groups : VI. Modified Reaction Model for the Elimination Process of Nitrosation Reaction
- Ab Initio Molecular Orbital Study of the Reactivity of Active Alkyl Groups. V. Nitrosation Mechanism of Acetone with syn-Form of Methyl Nitrite
- Solvent Effect on Photoisomerisation of 3-Methyl-1-phenylbutane-1,2-dione 2-Oxime
- Regioselective nitorosation of 2,4-lutidine using n-butyllithium as a basic catalist
- Effects of Counter Cations of Base Catalysts on Nitrosation Mechanisms
- Ab Initio Molecular Orbital Study of Reactivity of Active Alkyl Groups.IV. Nitrosation of Acyclic Carbonyl Compound with Methyl Nitrite via "Open-Chain"Transition State
- Ab Intitio Molecular Orbital Study of Reactivity of Active Alkyl Groups. III. Nitrosation of Acyclic Carbonyl Compound with Methyl Nitrite via Na^+ Chelated Transition State