Narita Miyuki | Department Of Materials-process Engineering And Applied Chemistry For Environments Faculty Of Engine
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概要
- Narita Miyukiの詳細を見る
- 同名の論文著者
- Department Of Materials-process Engineering And Applied Chemistry For Environments Faculty Of Engineの論文著者
関連著者
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小川 信明
Faculty Of Engineering And Resource Science Akita University
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OGAWA Nobuaki
Department of Chemistry, Faculty of Education, Akita University
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NARITA Miyuki
Department of Materials-process Engineering and Applied Chemistry for Environments, Faculty of Engin
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HAMADA Fumio
Department of Materials-process Engineering and Applied Chemistry for Environments, Faculty of Engin
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Hamada F
Akita Univ. Akita Jpn
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Hamada Fumio
Department Of Electronics Engineering Gunma University
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Narita Miyuki
Department Of Materials-process Engineering And Applied Chemistry For Environments Faculty Of Engine
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Ogawa Nobuaki
Department Of Chemistry Faculty Of Education Akita University
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Narita Miyuki
Department Of Materials-process Engineering And Applied Chemistry For Environments Faculty Of Engine
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Narita Miyuki
Department Of Materials-process Engineering And Applied Chemistry For Environments Faculty Of Engine
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Sato Masanori
Department Of Materials-process Engineering And Applied Chemistry For Environments Faculty Of Engine
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MIMA Satoshi
Department of Materials-process Engineering and Applied Chemistry for Environments, Faculty of Engin
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SATO Mayumi
Department of Astronomy, Graduate School of Science, The University of Tokyo
著作論文
- Fluorescent Molecular Sensory System Based on Bis Pyrene-Modified γ-Cyclodextrin Dimer for Steroids and Endocrine Disruptors
- Selective Fluorescent Molecular Sensing by Bis Dansyl-Modified γ-Cyclodextrin Dimer
- Fluorescent Chemo-Sensor for Organic Guests Based on Regioselectively Modified 6^A, 6^B-, 6^A, 6^C-, and 6^A, 6^D-Bisdansylglycine-Medified β-Cyclodextrins
- Fluorescent Molecular Recognition for Endocrine-Disrupting Chemicals and Their Analogs by Fluorescent Hetrero-Modified Cyclodextrins
- Fluorescence Molecular Sensing for Endocrine-disrupting Chemicals and Their Analogues Based on Dansyl or Anthranilate Modified β- and γ-Cyclodextrins