Kunieda H | Graduate School Of Environment And Information Sciences Yokohama National University
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概要
- Kunieda Hironobuの詳細を見る
- 同名の論文著者
- Graduate School Of Environment And Information Sciences Yokohama National Universityの論文著者
関連著者
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Kunieda H
Graduate School Of Environment And Information Sciences Yokohama National University
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Kunieda Hironobu
Graduate School Of Environment And Information Sciences Yokohama National University
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Acharya D
Graduate School Of Environment And Information Sciences Yokohama National University
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Acharya Durga
Graduate School Of Environment And Information Sciences Yokohama National University
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Watanabe Ken-ichi
Graduate School Of Environment And Information Sciences Yokohama National University
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Naito Noboru
Research & Development Division, KOSÉ Corporation
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Naito Noboru
Research & Development Division Kose Corporation
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KANEI Noriko
Fragrance Laboratory, Soda Aromatic Co. Ltd.
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Kanei Noriko
Fragrance Laboratory Soda Aromatic Co. Ltd.
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TANIMURA Junichi
Graduate School of Environment and Information Sciences, Yokohama National University
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Tanimura Junichi
Graduate School Of Environment And Information Sciences Yokohama National University
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Tanimoto Masayuki
Division Of Artificial Environment And Systems Graduate School Of Engineering Yokohama National Univ
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Rodriguez C
Yokohama National Univ. Kanagawa Jpn
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KUNIEDA Hironobu
Division of Artificial Environment and Systems, Graduate School of Engineering, Yokohama National Un
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SHIGETA Kazuki
Division of Artificial Environment and Systems, Graduate School of Engineering, Yokohama National Un
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RODRIGUEZ Carlos
Division of Artificial Environment and Systems, Graduate School of Engineering, Yokohama National Un
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Shigeta Kazuki
Division Of Artificial Environment And Systems Graduate School Of Engineering Yokohama National Univ
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Kamei Noriko
Fragrance Laboratory, Soda Aromatic Co. Ltd.
著作論文
- Phase Behavior of Polyoxyethylene Phytosterol / Polyoxyethylene Dodecylether / Water Systems
- Effect of Added Perfume on the Stability of Discontinuous Cubic Phase
- Highly Concentrated Emulsions Based on the Reverse Micellar Cubic Phase
- Rheological Behavior of Wormlike Micellar Solutions in Mixed Nonionic Systems of Polyoxyethylene Phytosterol-Polyoxyethylene Dodecyl Ether
- Highly Concentrated Cubic-Phase Emulsions : Basic Study on D-Phase Emulsification using Isotropic Gels