Mukaiyama Teruaki | Laboratory of Organic Chemistry Tokyo Institute of Technology
スポンサーリンク
概要
関連著者
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Mukaiyama Teruaki
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Takei Hisashi
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Kumamoto Takanobu
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Maruyama Hiroshi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Kobayashi Susumu
Laboratory of Nutritional Biochemistry, Graduate School of Agricultural and Life Sciences, The Unive
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Hata T.
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Mukaiyama T.
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Sakashita Takeshi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Narasaka Koichi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Inomata Katsuhiko
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Mukaiyama Teruaki
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Endo Tadashi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Saigo Kazuhiko
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Matsueda Rei
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Ueki Masaaki
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Sato Toshio
Laboratory Of Geoenvironmental Ecotechnology Faculty Of Agriculture Shimane University
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Fujisawa Tamotsu
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Mitsunobu Ohyo
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Koma Yasuo
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Hata Tsujiaki
Laboratory of Organic Chemistry Tokyo Institute of Technology
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Takahagi Hidekuni
Product Development Laboratories, Sankyo Co. Ltd.
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Maruyama Hiroshi
Product Development Laboratories, Sankyo Co., Ltd.
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Matsueda Rei
Product Development Laboratories, Sankyo Co., Ltd.
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Kitazawa Eiichi
Product Development Laboratories, Sankyo Co. Ltd.
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Toyoda Minoru
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Higo Moriaki
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Yamamoto Shoji
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Hosoi Kazuo
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Noguchi Shigeru
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Hashimoto Mitsunori
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Taguchi Takeo
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Muraki Masayoshi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Adachi Takeshi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Fukuyama Shinichi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Inokuma Shun
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Takei Hisashi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Araki Masashi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Sakata Shigeru
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Hagio Katsuaki
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Kamio Kunimasa
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Maekawa Kazuo
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Hanna Junichi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Nakamura Hideo
Laboratory of Organic Chemistry, Tokyo Institute of Technology
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Matsueda Rei
Product Development Laboratories, Sankyo Co. Ltd.
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Ikenaga Shinichi
Laboratory of Organic Chemistry, Tokyo Institute of Technology
著作論文
- Dehydration Reactions of Benzaldoxime by Means of Compounds Having a Nitrogen-Carbon Double Bond
- Pyrolysis of Acid Amides. III. Pyrolysis of Cyanoacetamides and 2-Phenylacetamides
- A Selective Phosphorylation by Means of α-Bromocyano acetamides and Trialkyl Phosphites
- Synthesis of Testosterone Dimethyl Phosphate, Bornyl Phosphate and Adenosine 5′-Phosphate
- Solid Phase Peptide Synthesis by Oxidation-Reduction Condensation. Synthesis of LH–RH by Fragment Condensation on Solid Support
- A Convenient Method for the Preparation of Thiolesters
- Peptide Synthesis by Oxidation-Reduction Condensation. II. The Use of Disulfide as an Oxidant
- Ring Expansion through a 1,3-Acyl Rearrangement. Reactions of Cyclic Sulfonium Ylides with Acetylenic Compounds
- A Convenient Method for Hydrolysis of 1,3-Dithiane Derivatives Using Cupric Chloride
- The Reactions of Complexes of Thioboronite with Compounds Containing Carbon-Nitrogen Multiple Bond
- Syntheses of Acylurea Derivatives as Model Compounds for a Highly Specific Organic Reaction
- Reactions of Vinyloxyboranes. A Convenient Method for the Preparation of β-Hydroxy Thiolesters, Esters and Ketones
- The Reactions of Phosphonium Ylides and Oxosulfonium Methylide with Sulfenamide Derivatives
- The Reactions of β-Ketosulfonium Salts with Sulfenamide Derivatives
- Reactions of Sulfonium and Pyridinium Salts with Alkyl Nitrite
- A Convenient Method for the Preparation of Ketones by the Reaction of Grignard Reagents with Carboxylic Acid Derivatives
- Syntheses and Reactions of 2-Ethylthio- or 2-Phenylthio-2-cycloalkenones
- The Reactions of α-Substituted Carbonyl-stabilized Sulfonium Ylides with Succinic Anhydride
- A Convenient Method for the Hydrolysis of Vinyl Sulfides to Ketones
- The Activation of Bivalent Sulfur Compounds with Cupric Chloride and Zinc Chloride. The Benzylation and Acylation of Aromatic Compounds with Sulfides and Thiol Esters
- Sulfenylation of Active Methylene Compounds with Sulfenamides
- A convenient synthesis of .BETA.-acetyl-.GAMMA.-substituted-.GAMMA.-butyrolactones and .GAMMA.-acetyl-.DELTA.-substituted-.DELTA.-valerolactones.
- Peptide Synthesis by Oxidation-Reduction Condensation. I. Use of NPS-Peptides as Amino Component
- Phosphorylation by Oxidation-Reduction Condensation. Preparation of Active Phosphorylating Reagents
- Peptide Synthesis via Oxidation-Reduction Condensation by the Use of Non-metallic Compound as a Mercaptan Scavenger