Effective Catalysts for Transfer Hydrogenation of Ketones and Imines by Propan-2-ol : Ruthenium-Hydride or Ruthenium-Dihydride Complexes
スポンサーリンク
概要
著者
-
Yamaguchi M
Shinshu Univ. Ueda
-
YAMAGUCHI Motowo
Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University
-
YAMAGISHI Takamichi
Department of Industrial Chemistry, Faculty of Engineering, Tokyo Metropolitan University
-
MIZUSHIMA Eiichiro
Department of Applied Chemistry, Graduate School of Engineering, Tokyo Metropolitan University
-
Mizushima Eiichiro
Department Of Applied Chemistry Graduate School Of Engineering Tokyo Metropolitan University
-
Yamaguchi M
Department Of Organic Chemistry Graduate School Of Pharmaceutical Sciences Tohoku University
-
Yamagishi T
Tokyo Metropolitan Univ. Tokyo
-
Yamagishi Takamichi
Department Of Applied Chemistry Graduate School Of Engineering Tokyo Metropolitan University
-
Yamaguchi Motowo
Department Of Applied Chemistry Graduate School Of Engineering Tokyo Metropolitan University
関連論文
- Recognition of Helicity by Native Cyclodextrins.Highly Enantioselective Complexation of Tetrahelicene Dicarboxylic Acid with β-Cyclodextrin
- Chiral Recognition of Tetrahelicene Dicarboxylic Acid by Linear Dextrins
- Elucidation of Sulfur Behavior on Alumina-Supported Ruthenium Sulfide-Cesium Catalysts Using Radioactive ^S as a Tracer
- Molecular Structure of 1, 3-Disubstituted π-Allyl Palladium (II) Complecxes with a Chiral Diphosphine : The Intermediate of Palladium-catalyzed Asymmetric Asymmetric Allylic Alkylation
- Isomerization of Imines Catalyzed by Ruthenium-Hydride Complexes
- Effective Catalysts for Transfer Hydrogenation of Ketones and Imines by Propan-2-ol : Ruthenium-Hydride or Ruthenium-Dihydride Complexes
- Recognition of Planar Chirality by Cyclodextrins
- Syntheses of Ruthenium(II) Complexes with Pentadentate Ligands and Catalytic Oxidation of Alkane Using 2,6-Dichloropyridine N-Oxide
- ピレンおよびベリレンπ-ラジカルカチオンへの求核置換反応によるピリジウム共役組織体の電解合成
- Facile Chemical Dehydrogenation of α-Amino Acids Chelated to a Ruthenium(II) Ion:(α-Imino acidato)bis(1, 10-phenanthroline)ruthenium(II) Complexes^
- Syntheses and Characterization of Chloro(Me_2SO)ruthenium(II) Complexes with Tris(2-pyridylmethyl)amine of N, N-Bis(2-pyridylmethyl)glycinate and Their Application for Catalytic Hydroxylation of Alkane
- Kinetic studies on the amination of leucoquinizarin.
- Ullmann condensation reaction of haloanthraquinone derivatives with amines in aprotic solvents.
- The Ullmann condensation reaction of haloanthraquinone derivatives with amines in aprotic solvents. II. The presence of an induction period in the condensation with 2-aminoethanol.
- Asymmetric hydrogenation of .ALPHA.-keto acid derivatives with Rh(I)-chiral diphosphinite system. Effect of halide counterion on the asymmetric induction.
- Stereoisomers of trans-dichlorocobalt(III) complex with 1,7-bis((S)-2-pyrrolidinyl)-2,6-diazaheptane.
- The Ullmann condensation reaction of haloanthraquinone derivatives with amines in aprotic solvents. VI. The combination of Cu(I) and hydroxo or alkoxo Cu(II) as effective catalyst system.
- Synthesis of Naphth(1,2,3-cd)indol-6(2H)-one Derivatives and Their Fluorescence Properties.
- The Ullmann condensation reaction of haloanthraquinone derivatives with amines in aprotic solvents. III. The formation and role of copper(II) species in the condensation with 2-aminoethanol by copper(I) catalyst.
- Synthesis of 2,6-dihydronaphth(1,2,3-cd)indol-6-ones.
- The Ullmann condensation reaction of haloanthraquinone derivatives with amines in aprotic solvents. V. The formation of active catalyst by the partial oxidation of copper(I) with molecular oxygen.
- The Ullmann condensation reaction of haloanthraquinone derivatives with amines in aprotic solvents. IV. Kinetic studies of the condensation with ethylenediamine.
- Effects of solvent and temperature on the 1,4-asymmetric induction in the diastereoselective hydrogenation of dehydrodipeptides.
- Asymmetric hydrogenation of dehydroamino acids and dehydrodipeptides with rhodium(I)-modified DIOP catalysts.
- The Electrochemical Behavior of the Low-valent Transition Metal Complexes. II. Iron(0)-2,2′-Bipyridine Complexes
- The Electrochemical Behavior of the Low-valent Transititon-metal Complexes. I. Nickel-2,2′-Dipyridyl Complexes.
- The molecular structure of (+)589-.BETA.2-(3-methyl-2-iminobutanoato)((2S,10S)-4,8-diazaundecane-2,10-diamine)cobalt(III) perchlorate: .ALPHA.-Imino acidato complex.