Tagaki Waichiro | Department of Applied Chemistry, Faculty of Engineering Osaka City University
スポンサーリンク
概要
- Tagaki Waichiroの詳細を見る
- 同名の論文著者
- Department of Applied Chemistry, Faculty of Engineering Osaka City Universityの論文著者
関連著者
-
Tagaki Waichiro
Department of Applied Chemistry, Faculty of Engineering Osaka City University
-
Tamagaki Seizo
Department Of Applied & Bioapplied Chemistry Graduate School Of Engineering Osaka City Universit
-
Yano Yumihiko
Department Of Chemistry Faculty Of Engineering Gunma University
-
Ogino Kenji
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Tagaki Waichiro
Department Of Bioapplied Chemistry Faculty Of Engineering Osaka City University
-
Tamura Yoshiharu
Department of Chemistry, Faculty of Engineering, Gunma University
-
Ogino Kenji
Department Of Bioapplied Chemistry Osaka City University
-
TAGAKI Waichiro
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Tagaki W
Osaka City Univ.
-
Tagaki Waichiro
Department Of Bioapplied Chemistry Osaka City University
-
Ogino Kenji
Department Of Bioapplied Chemistry Faculty Of Engineering Osaka City University
-
Kozuka Seizi
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Ogino K
Tokyo Univ. Agriculture And Technol. Tokyo Jpn
-
Ogino Kenji
Graduate School Of Bio-applications And System Engineering Tokyo University Of Agriculture & Tec
-
"Azuma Hideki
"Department of Bioapplied Chemistry, Osaka City University
-
Tagaki Waichiro"
Department of Bioapplied Chemistry, Osaka City University"
-
YOSHIDA Toshiharu
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Yoshida Toshiharu
Department Of Bioapplied Chemistry Faculty Of Engineering Osaka City University
-
AZUMA HIDEKI
Department of Psychiatry, Nagoya City University Medical School
-
Azuma Hideki
Department Of Bioapplied Chemistry Osaka City University
-
Yamaguchi Shigeru
Department Of Applied Chemistry Faculty Of Engineering Ehime Universiry
-
Tamura Shoji
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Awano Hiroshi
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Sasaki Masaaki
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
YAMAMOTO Hiroaki
Department of Astrophysics, Nagoya University
-
Ogino K
Osaka City Univ. Osaka
-
Yamamoto Hiroaki
Department Of Astrophysics Nagoya University
-
Tanaka Osamu
Department Of Anatomy Shimane Medical University
-
Hoshino Yutaka
Department Of Bioactive Molecules National Institute Of Infectious Diseases
-
Machiya Koji
Department Of Applied Chemistry And Bioengineering Graduate School Of Engineering Osaka City Univers
-
TAKEMOTO Kazuo
Department of Public Health, Saitama Medical School
-
Suzuki Kenji
Department Of Anesthesia Kitakami Saiseikai Hospital
-
OGINO Kenji
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Kurashima Akira
Department of Chemistry, Faculty of Engineering, Gunma University
-
Kozuka Seizi
Department of Applied Chemistry, Faculty, of Engineering, Osaka City University
-
Yamaguchi Shigeru
Department of Applied Chemistry, Faculty, of Engineering, Osaka City University
-
Yamazaki Tetsuya
Department of Applied Chemistry, Faculty, of Engineering, Osaka City University
-
Inaba Yoichi
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Machiya Koji
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Fujita Tsunehisa
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Ohya Hirohisa
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Tomio Minaki
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Kanamaru Yutaka
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Ueno Masanori
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Mimura Takashi
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Kashihara Nobuyuki
Department of Bioapplied Chemistry, Faculty of Engineering, Osaka City University
-
Hoshino Yutaka
Department of Chemistry, Faculty of Engineering, Gunma University
-
Nitta Takemi
Department of Applied Chemistry, Faculty of Engineering, Osaka City University
-
Tagaki Waichiro
Department of Chemistry, Faculty of Engineering, Gunma University
-
Tagaki Waichiro
Department of Chemistry, Faculty of Technology, Gunma University
-
Okonogi Tsuneo
Department of Chemistry, Faculty of Technology, Gunma University
著作論文
- Catalytic effects of aminated-β-cyclodextrin derivatives for the decarboxylation of oxalacetate
- Aldol condensation of pyruvate with pyridinecarboxaldehydes in the presence of peraminated β-cyclodextrins
- Location of Catalytic Head Group of 2-Hydroxymethylimidazole・Cu^ Complex on the Micellar Surface of Anionic SDS in the Hydrolysis of p-Nitrophenyl Picolinate
- A kinetic study on the reaction of (arylthio)trimethylgermane with benzoyl chloride giving S-aryl thiobenzoate and chlorotrimethylgermane.
- Mechanism of carboxylic acid-catalyzed reduction of substituted nitrosobenzenes by 1-benzyl-3,5-bis(1-pyrrolidinylcarbonyl)-1,4-dihydropyridine in acetonitrile.
- Fe(III)-catalyzed aromatic hydroxylation with H2O2 in the presence of a variety of electron-transfer agents.
- Hydrolytic metalloenzyme models. Effects of AOT reverse micelles on the hydrolysis of p-nitrophenyl picolinate catalyzed by Zn2+ and Cu2+ complexes of N-alkyl-2-hydroxymethylimidazoles.
- Hydrolytic metalloenzyme models. Micellar effects on the activation of the hydroxyl groups of N-alkyl-2-(hydroxymethyl)-imidazole ligands by Cu2+ in the transacylation of p-nitrophenyl picolinate.
- Metal ion-catalyzed reduction of substituted nitrosobenzenes by 1-benzyl-3,5-bis(1-pyrrolidinylcarbonyl)-1,4-dihydropyridine in acetonitrile.
- Physical and chemical properties of mononuclear cobalt dioxygen complexes with tetraimidazolyl-substituted pyridine chelates.
- Structural aspects of catalytic activities of thiazolium salts in benzoin condensation reaction in methanol.
- Amine base-catalyzed H-D exchange reaction of 2,3,4-trimethylthiazolium iodide in methanol-d4.
- Mechanism of base catalyzed oxidation of 2-(1-hydroxyalkyl)-thiazolium ion with 3-methyllumiflavin.
- Acid-Promoted Oxidations of an NAD(P)H Model with Hydrogen Peroxide and Molecular Oxygen.
- The catalytic role of a flavin analogue for aromatic hydroxylation with the Udenfriend system.
- The mechanism of the reaction of (aryloxy)trimethylstannane with methanesulfonyl chloride. Solvent and substituent effects on the rate of the reaction.
- Micellar Effect of Lauryldimethylsulfonium Halides on the Hydrolysis of p-Nitrophenyl Decanoate
- Phase transfer catalyzed reaction of organic thiocyanates with hydroxide ion.
- Asymmetric benzoin condensation catalyzed by optically active thiazolium salts in micellar two-phase media.
- Aromatic hydroxylation with an iron(III)-catechol-H2O2 system. Mechanistic implication of the role of catechol.
- Mechanism of the reaction of (arylthio)trimethylgermanes with 1-aryl-1-bromoethanes. Kinetic and stereochemical studies.
- Reaction of p-Nitrophenyl Sulfate with Thiophenol