YONEDA Hayami | Department of Chemistry, Faculty of Science, Hiroshima University
スポンサーリンク
概要
関連著者
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YONEDA Hayami
Department of Chemistry, Faculty of Science, Hiroshima University
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Sakaguchi Ushio
Department of Chemistry, Faculty of Science, Hiroshima University
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Miyoshi Katsuhiko
Department Of Chemistry Faculty Of Science Hiroshima University
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Kushi Yoshihiko
Department Of Chemistry Graduate School Of Science Osaka University
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Nakazawa Hiroshi
Department Of Applied Biology Faculty Of Textile Science Kyoto Institute Of Technology
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Tada Toshiji
Department Of Biological Science Graduate School Of Science Osaka Prefecture University
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YAMAZAKI Shigeo
Department of Applied Science, Okayama University of Science
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Nakashima Yoshiaki
Department of Chemistry, Faculty of Science, Hiroshima University
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Oh Chang
Department Of Biochemistry And Ilchun Molecular Medicine Institute Mrc Seoul National University Col
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MIYOSHI Katsuhiko
Department of Chemistry, Graduate School of Science, Hiroshima University
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Takagi Ichiro
Department Of Removable Prosthodontics And Gerodontology Tokyo Dental College
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Mizuta T
Hiroshima Univ. Higashi‐hiroshima
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Mizuta Tsutomu
Department Of Chemistry Graduate School Of Science Hiroshima University
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Yoneda Hayami
Department Of Fundamental Science Okayama University Of Science
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Miyoshi K
Department Of Chemistry Graduate School Of Science Hiroshima University
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Nakashima Yoshiaki
Department Of Surgery Ii Nagoya City University Medical School
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Kuroda Yasushige
Department Of Chemistry Faculty Of Science Okayama University
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Toda Yoshihisa
Department of Chemistry, Faculty of Science, Hiroshima University
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Kuramoto Masahiro
Department of Chemistry, Faculty of Science, Hiroshima University
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Muto Masayuki
Department of Chemistry, Faculty of Education, Wakayama University
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Miura Takao
Department of Chemistry, Wakayama University
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Shimada Chiyori
Department of Chemistry, Faculty of Science, Hiroshima University
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Ueda Kazumasa
Department Of Chemistry And Chemical Engineering Kanazawa University
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MIZUTA Tsutomu
Department of Chemistry, Graduate School of Science, Hiroshima University
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Uchiyama Atsushi
Department of Pediatrics, Shimane Medical University
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Ueda Kazumasa
Department Of Chemistry And Chemical Engineering Faculty Of Engineering Kanazawa University
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Yasui Takaji
Department Of Chemistry Faculty Of Science Kochi University
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Uchiyama Atsushi
Department Of Chemistry Faculty Of Science Hiroshima University
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Sasaki Ken-ichi
Department Of Pharmacology And Toxicology Cancer Research Institute Tohoku Pharmaceutical University
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Fujii Yuki
Department Of Chemistry Faculty Of Science Ibaraki University
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Maeda Koichi
Department Of General Medicine And Clinical Investigation Nara Medical University
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Ueda Kazumasa
Department Of Chemistry Faculty Of Science Hiroshima University
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YAMANE Hiromi
Department of Chemistry, Faculty of Science, Hiroshima University
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Sasaki Ken-ichi
Department Of Pathology Sapporo Medical University School Of Medicine
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Yamane Hiromi
Department Of Chemistry Faculty Of Science Hiroshima University
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Yamaguchi Masaaki
Department Of Biology Faculty Of Science Kanazawa University
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Sasaki Ken-ichi
Department Of Chemistry Faculty Of Science Hiroshima University
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Okazaki Hiroshi
Department Of Bioscience Teikyo University Of Science And Technology
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Watanabe Kenzo
Department of Chemistry, Faculty of Science, Hiroshima University
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Morito Kaiji
Department of Chemistry, Faculty of Science, Hiroshima University
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Nakano Michie
Department of Chemistry, Faculty of Science, Hiroshima University
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Taura Toshiaki
Department of Chemistry, Faculty of Science, Hiroshima University
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Takemoto Gen
Department of Chemistry, Faculty of Science, Hiroshima University
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Muto Masayuki
Department of Chemistry, Wakayama University
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Ohtsuru Hisaka
Department of Chemistry, Faculty of Science, Hiroshima University
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Morimoto Yukiyoshi
Research Laboratories, Fujisawa Pharmaceutical Co., Ltd.
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Morimoto Yukiyoshi
Research Laboratories, Fujisawa Pharmaceutical Company
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Ideno Toshio
Department of Chemistry, Faculty of Science, Hiroshima University
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Sakamoto Yukio
Department of Chemistry, Faculty of Science, Hiroshima University
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Wakida Shin-Ichi
Department of Chemistry, Faculty of Science, Hiroshima University
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Kuroda Yasushige
Department of Chemistry, Faculty of Science, Hiroshima University
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Matsukawa Hitoshi
Department of Chemistry, Faculty of Science, Hiroshima University
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Maeda Koichi
Department of Cardiovascular Surgery, Osaka University Graduate School of Medicine
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Maeda Koichi
Department of Chemistry, Faculty of Science, Hiroshima University
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Okazaki Hiroshi
Department of Chemistry, Faculty of Science, Hiroshima University
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Yamaguchi Masaaki
Department of Chemistry, Wakayama University
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Baba Tetsuo
Department of Chemistry, Wakayama University
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Isoe Yuji
Department of Chemistry, Faculty of Science, Hiroshima University
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Taura Toshiaki
Department of Chemistry, Aichi Prefectural University
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Tada Toshiji
Department of Chemistry, Faculty of Science, Hiroshima University
著作論文
- Highly Efficient Chromatographic Optical Resolution of fac-Tris(β-alaninato)cobalt(III) with an Optically Active ob_3 Isomer of Tris(trans-1,2-diaminocyclohexane)cobalt(III) Cation Adsorbed on a Cation-Exchange Resin
- Chromatographic Resolution of a Diastereomeric Mixture of Tris(trans-1, 2-diaminocyclohexane)cobalt(III) by Bis(μ-tartrato)diantimonate(III)Anion and Association Modes Found in Their Diastereomeric Salts
- Synthesis, characterization, and optical resolution of electrically neutral octahedral cobalt(III) complexes containing the tetradentate ligand.
- The crystal and molecular structure of potassium u-fac-bis(N-methyliminodiacetato)cobaltate(III) sesquihydrate.
- Deuteration reaction of malonate hydrogens in some monomalonatocobalt(III) compounds.
- Structural study of optical resolution. IX. The crystal structure of (-)589-tris(biguanide)cobalt(III) chloride d-tartrate pentahydrate.
- Stereoselective association between acetylacetonatobis(ethylenediamine)cobalt(III) and malonate ions as studied by nuclear magnetic resonance.
- Preferential Precipitation of Δ-[Co(en)3]2(d-C4H4O6)3 by Alcohol Addition to the [Co(en)3]3+–d-C4H4O62−
- Comparison of association constants derived from CD and UV measurements. The case of .LAMBDA.-tris(ethylenediamine)-cobalt(III) and .DELTA.-tris((1r,2r)-1,2-cyclohexane-diamine)cobalt(III) with thiosulfate ion.
- Absolute configurations assigned to some octahedral cis-bis(diamine)cobalt(III) complexes on the basis of their stereoselective interactions in solution.
- Structural study of optical resolution. VII. The crystal structure of (-)589-oxalatobis(ethylenediamine)cobalt(III) hydrogen-d-tratrate dihydrate and comparison between the crystal structures of the more- and less-soluble diastereoisomers.
- Kinetics of the stereoselective deuteration of malonate hydrogens in some bis(malonato)cobalt(III) compounds and the reversal of stereoselectivity induced by the solution pH.
- Proton Magnetic Resonance of Metal Ammine Complexes. IV. Paramagnetic Anisotropy of Cobalt(III) Ions as Exemplified in Proton Chemical Shifts
- Proton magnetic resonance spectra of metal ammine complexes. VIII. Hydrogen isotopic exchange in the [Co(O)2(N)4]+ complex ions.
- Proton magnetic resonance spectra of metal ammine complexes. VI. The trans-effect in cobalt(III) amine compounds as studied by the rate of hydrogen-deuterium exchange.
- The Preparation and Properties of Metal Complexes in Non-aqueous Solution. II. Diiodotetrakisdimethylsulfoxidecobalt Iodide
- Laser Photochemistry. II. Determination of the ORD and CD Spectra of Some Chromium(III) β-Diketonates
- Proton magnetic resonance spectra of metal ammine complexes. VII. Amine proton chemical shifts in bis(ethylenediamine)cobalt(III) compounds.
- Hydrogen-Deuterium Exchange in the Methyl Group of Four Bisdimethylglyoximatocobalt(III) Complexes
- The crystal and molecular structure of (N-benzyl-L-alaninato)-(n,n'-ethylenebis(.ALPHA.-methylsalicylideneaminato))-cobalt(III) trihydrate.
- Studies of the separation mechanism in ion-exchange chromatography. I. Inversion of the elution order of cis and trans isomers of metal complexes.
- Studies of the separation mechanism in ion-exchange chromatography. II. Inversion of the elution order of tri- and divalent complex cations with increasing concentration of the eluent.
- Structural study of optical resolution. XI. The crystal structures of (+)589-tris(biguanide)cobalt(III) chloride d-tartrate trihydrate and racemic tris(biguanide)cobalt(III) trichloride.
- Theoretical Study of Proton Chemical Shifts Induced by the Paramagnetic Anisotropy of Cobaltic Ion
- Studies of the separation mechanism in ion-exchange chromatography. III. Elution order of cis-bis(ethylenediamine)cobalt(III) and cis.ALPHA.-triethylenetetraminecobalt(III) complexes on SP-sephadex C-25 and IEX510 resins.
- A fairly effective environment substance (Co(sep))3+ ion in the Pfeiffer effect of some oxalato complexes of chromium(III).
- Structural study of optical resolution. VI. The crystal structure of (+)589-cis-chloroamminebis(ethylenediamine)cobalt(III) d-3-bromocamphor-9-sulfonate monohydrate.
- Study of Hydration and Association of Ions in Solution. I. Chromatographic and Electrophoretic Behaviors of Hexamminetype Cobalt(III) Complexes in Aqueous Solutions of Various Electrolytes
- Complete Resolution of the Racemic Trisethylenediaminecobalt(III) Complex into Its Optical Antipodes by Means of Electrophoresis
- Influence of added alcohols on the pfeiffer effect of tris-(1,10-phenanthroline)zinc(II)-l-malic acid and -d-tartaric acid systems in water.
- Induced circular dichroism spectra of some achiral and racemic cobalt(III)-amine complexes in aqueous (R,R)-tartrate and (R,R)-tartratoantimonate(III) solutions.
- The Chelation-induced Deceleration of the Methyl Proton Exchange in the Bisacetylacetoneethylenediimine Ligand
- Proton Magnetic Resonance Spectra of Metal Ammine Complexes. I. Cobalt(III) Pentammine Series
- Solubility of Transition Metal Complexes in Aqueous Salt Solutions. I. Tris(1,10-phenanthroline)iron(II) Perchlorate
- Solubility of transition metal complexes in aqueous salt solutions. II. Tris(1,10-phenanthroline)iron(II) perchlorate in hydrophobic salt solutions.
- Enhancement of the Pfeiffer effect arising from the cation-cation interaction.