Jinno Naoya | Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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概要
- Jinno Naoyaの詳細を見る
- 同名の論文著者
- Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshishaの論文著者
関連著者
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Jinno Naoya
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Hashimoto Masahiko
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Tsukagoshi Kazuhiko
Department Of Chemical Engineering And Materials Science Doshisha University
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Tsukagoshi Kazuhiko
Dep. Of Chemical Engineering And Materials Sci. Fac. Of Engineering Doshisha Univ. Kyotanabe Kyoto 6
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Tsukagoshi K
Doshisha Univ. Kyotanabe
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塚越 一彦
Department Of Chemical Engineering And Materials Science Faculty Of Engineering Doshisha University
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Tsukagoshi Kazuhiko
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Tsukagoshi Kazuhiko
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Hashimoto Masahiko
Department Of Chemical Engineering And Materials Science Doshisha University
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Tsukagoshi Kazuhiko
Doshisha Univ. Kyoto Jpn
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Tsukagoshi Kazuhiko
Department Of Chemical Engineering And Materials Science Faculty Of Engineering Doshisha University
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Tsukagoshi K
Doshisha Univ. Kyoto Jpn
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Hashimoto M
Department Of Polymer Science And Engineering Faculty Of Textile Science Kyoto Institute Of Technolo
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Hashimoto Masahiko
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshis
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Tsukagoshi Kazuhiko
Department of Chemical Engineering and Materials Science, Faculty of Engineering, Doshisha Universit
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Jinno Naoya
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshis
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塚越 一彦
Department Of Chemical Engineering And Materials Science Doshisha University
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Masuhara Yuji
Department Of Chemical Engineering And Materials Science Doshisha University
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Murakami Mari
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Murakami Mari
Department Of Anesthesia Yamguchi Rosai Hospital
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Takahashi Naoya
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha University
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MURAKAMI Mari
Department of Stem Cell Biology and Regenerative Medicine, Graduate School of Medical Science, Kansa
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Kimoto Hideshi
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Hashimoto Ko
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Nishiyama Kei
Department Of Cardiovascular Medicine Kyoto University Graduate School Of Medicine
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SUZUKI Kosuke
Department of Chemical Engineering and Materials Science, Doshisha University
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SAITO Hirotaka
Department of Chemical Engineering and Materials Science, Doshisha University
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KIMOTO Hideshi
Kimoto Electric Co., Ltd.
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Suzuki Kosuke
スズキ コウスケ
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Kimoto Hideshi
Kimoto Electric Co. Ltd.
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Saito Hirotaka
Department Of Chemical Engineering And Materials Science Doshisha University
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Hashimoto M
Department Of Macromolecular Science And Engineering Graduate School Of Science And Technology Kyoto
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ISHIMOTO Seiji
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshis
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YAMADA Koju
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshis
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HASHIMOTO Ko
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshis
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Yamada Koju
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Ishimoto Seiji
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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MASUHARA Yuji
Department of Chemical Engineering and Materials Science, Doshisha University
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Kobayashi Tomoya
Department Of Radiological Technology Tsukuba Medical Center
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Maeda Hideaki
Measurement Solution Research Center National Institute Of Advanced Industrial Science And Technolog
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Hayashi Yoichiro
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha
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Yamashita Kenichi
Measurement Solution Research Center National Institute Of Advanced Industrial Science And Technolog
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Yoshida Kazuma
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha University
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Suzuki Kosuke
Department Of Applied Chemistry Graduate School Of Engineering The University Of Tokyo
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Tanigawa Yusuke
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha University
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Nishiyama Kei
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha University
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TAINAKA Naoya
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshisha University
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Kobayashi Tomoya
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha University
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NOGAMI Takahiro
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshisha University
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FUJINAGA Satoshi
Department of Chemical Engineering and Materials Science, Faculty of Science and Engineering, Doshisha University
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Fujinaga Satoshi
Department Of Chemical Engineering And Materials Science Faculty Of Science And Engineering Doshisha University
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TSUKAGOSHI Kazuhiko
Department of Chemical Engineering and Materials Science, Doshisha University
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Kimoto Hideshi
Kimoto Electric Co. , Ltd. , Funahashi, Tennoji
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HASHIMOTO Masahiko
Department of Chemical Engineering and Materials Science, Doshisha University
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ARAI Akihiro
Clinical and Biotechnology Business Unit, Life Science Business Department, Shimadzu Corporation
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MATSUDA Takafumi
Department of Chemical Engineering and Materials Science, Doshisha University
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JINNO Naoya
Department of Chemical Engineering and Materials Science, Doshisha University
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Nishiyama Kei
Department of Cardiology, Kokura Memorial Hospital
著作論文
- Capillary Electrophoresis with Absorption/Chemiluminescence Dual Detection System Using a Poyl(tetrafluoroethylene) Separation Capillary
- Temperature effect on separation performance in capillary chromatography based on tube radial distribution of aqueous-organic mixture carrier solvents
- Specific Chemiluminescence from Singlet Oxygen Generated by the Reaction of Acetonitrile and Hydrogen Peroxide in the Presence of Alkali Halide
- Metal Compound Analysis by Capillary Chromatography Using an Untreated Capillary Tube and Water-Hydrophilic-Hydrophobic Solvent Mixture as a Carrier Solution
- Analytical Conditions and Separation Performance of Capillary Chromatography Based on the Tube Radial Distribution of Aqueous-Organic Mixture Carrier Solvents under Laminar-Flow Conditions
- Separation of Optical Isomers in Capillary Chromatography Using a Poly(tetrafluoroethylene) Capillary Tube and an Aqueous-Organic Mixture Carrier Solution
- Capillary Chromatography Based on Tube Radial Distribution of Aqueous-Organic Mixture Carrier Solvents : Introduction of Double Tubes Having Different Inner Diameters to the System
- Capillary Chromatography Based on the Tube Radial Distribution of Aqueous-Organic Mixture Carrier Solvents : Effects of the Inner-Wall Characteristics of the Fused-Silica Tube on Separation Performance
- Micro-Flow Separation System Using an Open Capillary Tube That Works under Laminar Flow Conditions
- Elution Behavior of Proteins in Capillary Chromatography Using an Untreated Fused-silica Capillary Tube and a Water-Hydrophilic-Hydrophobic Organic Mixture Carrier Solvent
- Distribution of Fluorescent Dyes Dissolved in Ternary Mixed Solvent in a Microchannel under Laminar Flow Conditions
- Tube radial distribution phenomenon of ternary mixed solvents in a microspace under laminar flow conditions
- Experimental Consideration of Capillary Chromatography Based on Tube Radial Distribution of Ternary Mixture Carrier Solvents under Laminar Flow Conditions
- Components of the carrier solvents and separation performance in the tube radial distribution chromatography using a fused-silica capillary tube
- Extraction of Cu(II) Based on Tube Radial Distribution of Ternary Mixed Carrier Solvent in Microchannels
- Capillary Chromatography Based on Tube Radial Distribution of Aqueous-Organic Mixture Carrier Solvents : Elution Behavior of Carboxylated Polymer Particles in the System
- Derivatization of a Protein with Fluorescamine Utilizing the Tube Radial Distribution Phenomenon of Ternary Mixed Carrier Solvents in a Capillary Tube
- Tube Radial Distribution Phenomenon of Ternary Mixed Solvents in a Microspace under Laminar Flow Conditions
- Analysis of Persistent Organic Pollutants at Sub-Femtogram Levels Using a High-Power Picosecond Laser for Multiphoton Ionization in Conjunction with Gas Chromatography/Time-of-Flight Mass Spectrometry
- The Micro-Flow Reaction System Featured the LiquidLiquid Interface Created with Ternary Mixed Carrier Solvents in a Capillary Tube
- Biomolecule Analyses in an Open-Tubular Capillary Chromatography Using Ternary Mixed Carrier Solvents with Chemiluminescence Detection
- Elution Behavior of Lambda-DNA with Ternary Mixed Carrier Solvents in an Open-Tubular Capillary under Laminar Flow Conditions
- Mixing Process of Ternary Solvents Prepared through Microchannels in a Microchip under Laminar Flow Conditions
- Consideration of the Tube Radial Distribution of the Carrier Solvents in a Capillary Tube under Laminar Flow Conditions and Computer Simulation
- The Micro-Flow Reaction System Featured the Liquid-Liquid Interface Created with Ternary Mixed Carrier Solvents in a Capillary Tube
- Chromatography Using Ternary Water-Acetonitrile-Ethyl Acetate Mixture as a Carrier Solution on a Microchip Incorporating Microchannels