| Hirano, Tomohiro (34.0%) / Professor [Detail] |
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| Academic Degree: |
Doctor / Doctor of Science |
| Field of Study: |
Synthetic Polymer Chemistry |
| Lecture: |
Introduction to STEM (Bachelor Course), STEM Practice (Bachelor Course), Presentation Method (D) (Graduate School), Personnel Management (Bachelor Course), Advanced Environmental Technology on Chemistry (Graduate School), Exercises in Organic Chemistry (Bachelor Course), Polymer Functions and Technologies (Graduate School), Advanced Topics in Synthetic Chemistry (Graduate School), Interdisciplinary Seminar in Science and Technology (Graduate School), Production Control (Bachelor Course), Advanced Stereochemistry (Graduate School), Polymer Chemistry 1 (Bachelor Course), Polymer Chemistry 2 (Bachelor Course), Advanced Polymer Chemistry (Graduate School) |
| Subject of Study: |
Synthesis and characterization of stereoregular polymers by radical and anionic polymerizations (anionic polymerization, radical polymerization, stereoregular polymer) |
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| Torii, Kohei (13.2%) / Designated Assistant Professor [Detail] |
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| Academic Degree: |
Doctor / Ph.D. |
| Field of Study: |
Artificial Intelligence |
| Lecture: |
Comprehensive Exercises for Artificial Intelligence (Common Curriculum), Data Science (Graduate School) |
| Subject of Study: |
医用画像AI開発支援ソフトウェアの開発,ニューラルネットワークの教師なし学習によって得られる潜在表現の解析とその応用,脳の実構造に基づくニューラルネットワークの構築 (artificial intelligence, medical image, neural network, software, computer vision) |
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| Mizuguchi, Hitoshi (13.2%) / Associate Professor [Detail] |
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| Academic Degree: |
Doctor / 博士(工学) |
| Field of Study: |
Analytical Chemistry, Electrochemistry |
| Lecture: |
STEM Practice (Bachelor Course), Advanced Analytical and Environmental Chemistry (Graduate School), Design of Chemical Analysis (Graduate School), Advanced Environmental Technology on Chemistry (Graduate School), Environmental Chemistry (Bachelor Course), Basic Chemistry Laboratory (Bachelor Course), Applied Chemistry Laboratory 1 (Bachelor Course), Special Lecture on Applied Chemistry 2 (Bachelor Course), Analytical Instrumentation Chemistry (Bachelor Course), Electrochemistry (Bachelor Course) |
| Subject of Study: |
Simple analytical techniques for trace element analysis, Novel electroanalytical techniques using track-etched microporous membrane electrodes (Track-etched membrane filter, biosensor, Electrode catalyst, Simple analytical methods, Monitoring of brain chemicals, Water quality control, ICT in education) |
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| Yoshida, Ken (13.2%) / Associate Professor [Detail] |
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| Academic Degree: |
Doctor / PhD |
| Field of Study: |
Physical Chemistry, Solution Chemistry |
| Lecture: |
SIH(Strike while the Iron is Hot) Training (Common Curriculum), STEM Practice (Bachelor Course), Advanced Environmental Technology on Chemistry (Graduate School), Basic Chemistry Laboratory (Bachelor Course), Applied Chemistry Laboratory 1 (Bachelor Course), Solution Chemistry (Bachelor Course), Advanced Physical Chemistry (Graduate School), Bioprocess Engineering (Graduate School), Quantum Chemistry (Bachelor Course) |
| Subject of Study: |
Physical Chemistry in Liquids and Fluids |
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| (Ute, Koichi) (7.5%) / Professor Emeritus [Detail] |
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| Academic Degree: |
Doctor / Ph. D |
| Field of Study: |
Polymer Characterization, Synthetic Polymer Chemistry, Structure and Fundamental Properties of Macromolecular Compounds |
| Subject of Study: |
Polymer Characterization by NMR Spectroscopy and Chromatography (Pulsed Field Gradient NMR Spectroscopy, LC-NMR, Chromatography at Critical Adsorption Point), Control of Distribution of Chemical Composition in Vinyl Copolymers (Precision Polymerization, Molecular Design of Polymer Materials), Preparation and Structural Chemistry of Uniform Polymers (Supercirtical Fluid Chromatography, X-ray Single Cryrstal Determination, Mass Spectrometry, Thermal Analysis) |
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| Oshimura, Miyuki (5.7%) / Associate Professor [Detail] |
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| Academic Degree: |
Doctor / Doctor, engineering |
| Field of Study: |
Synthetic Polymer Chemistry |
| Lecture: |
STEM Practice (Bachelor Course), Advanced Environmental Technology on Chemistry (Graduate School), Basic Chemistry Laboratory (Bachelor Course), Applied Chemistry Laboratory 1 (Bachelor Course), Applied Chemistry Laboratory 2 (Bachelor Course), Organic Chemistry 4 (Bachelor Course), Experimental Methods in Organic Chemistry (Bachelor Course), Advanced Organic Materials (Graduate School), Polymer Functions and Technologies (Graduate School) |
| Subject of Study: |
開環重合によるポスエステル合成 (開環重合, 脂肪族ポリエステル) |
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| GOTO, Masaki (1.9%) / Associate Professor [Detail] |
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| Academic Degree: |
Doctor / 博士(工学) |
| Field of Study: |
Biophysical Chemistry |
| Lecture: |
Graduation Research (Bachelor Course), Training of Bioscience Research (Bachelor Course), Introduction to Bioengineering (Bachelor Course), Practice for Bioscience Research (Bachelor Course), Exercise of Applied Biological Science 1 (Bachelor Course), Advanced Exercise on Applied Life Science (Graduate School), Advanced Research on Applied Life Science (Graduate School), Experiments of Physical Chemistry (Bachelor Course), Advanced Biochemical Engineering (Graduate School), Biophysical Chemistry (Bachelor Course), Research on Bioresource Science (Graduate School), Bioindustry A (Bachelor Course), Practice for Bioscience and Bioindustry (Bachelor Course), Practices for Fermentation Physiology (Bachelor Course), Reading Scientific Papers (Bachelor Course), Reading Scientific Papers Ⅰ (Bachelor Course), Reading Scientific Papers Ⅱ (Bachelor Course) |
| Subject of Study: |
脂質ナノ粒子(LNP)の高圧物性と産業的応用 (脂質二重膜, 界面活性剤, 高圧, 相転移, 蛍光イメージング, 放射光, 麻酔, 膜融合) |
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| Tabata, Atsushi (1.9%) / Professor [Detail] |
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| Academic Degree: |
Doctor / 博士(工学) |
| Field of Study: |
Microbiology |
| Lecture: |
Career Paths (Bachelor Course), Immunoengineering (Bachelor Course), Molecular Pathogenic Microbiology (Graduate School), Graduation Research (Bachelor Course), Advanced Microbiological inspection Science (Graduate School), Microbiological inspection science (Bachelor Course), Training of Bioscience Research (Bachelor Course), Introduction to Bioengineering (Bachelor Course), Practice for Bioscience Research (Bachelor Course), Exercise of Applied Biological Science 2 (Bachelor Course), Advanced Exercise on Applied Life Science (Graduate School), Advanced Research on Applied Life Science (Graduate School), Research on Bioresource Science (Graduate School), Bioindustry A (Bachelor Course), Practice for Bioscience and Bioindustry (Bachelor Course), Basic bioindustry (Bachelor Course), Practices for Fermentation Physiology (Bachelor Course), Experiments of Cell Science and Technology (Bachelor Course), Reading Scientific Papers (Bachelor Course), Reading Scientific Papers Ⅰ (Bachelor Course), Reading Scientific Papers Ⅱ (Bachelor Course) |
| Subject of Study: |
Microbial infection and host response mechanism (Bacterial protein toxin, Infection mechanisms, Host response) |
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| Matsuki, Hitoshi (1.9%) / Professor [Detail] |
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| Academic Degree: |
Doctor / 博士(理学) |
| Field of Study: |
Biophysical Chemistry, Colloid and Surface Chemistry, High Pressure Bioscience |
| Lecture: |
Presentation Method (D) (Graduate School), Molecular Aggregate Chemistry (Bachelor Course), Basic Physical Chemistry (Bachelor Course), Practice for Bioscience Research (Bachelor Course), Advanced Exercise on Applied Life Science (Graduate School), Advanced Research on Applied Life Science (Graduate School), Biofunctional Engineering (Graduate School), Advanced Biochmical Thermodynamics (Graduate School), Life Science (Bachelor Course), Research on Bioresource Science (Graduate School), Bioindustry A (Bachelor Course), Practice for Bioscience and Bioindustry (Bachelor Course), Basic bioindustry (Bachelor Course), Practices for Fermentation Physiology (Bachelor Course), Cell engineering (Bachelor Course), Reading Scientific Papers (Bachelor Course), Reading Scientific Papers Ⅰ (Bachelor Course), Reading Scientific Papers Ⅱ (Bachelor Course) |
| Subject of Study: |
Behavior of Biological Substances under High Pressure, Interaction between Membrane-Active Drugs and Model Biomembranes, Molecular-Aggregate Formation of Surface-Active Substances (Molecular Aggregate, Molecular Mechanism of Anesthesia, high pressure, surface tension, Non-Specific Molecular Interaction) |
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