Nagase, Masao (37.8%) / Professor [Detail] |
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Academic Degree: |
Dr. Eng. |
Field of Study: |
Semiconductor Device Physics |
Lecture: |
Advanced Nanoelectronics (Graduate School), Presentation Method (D) (Graduate School), Semiconductor Device Physics (Graduate School), Technical English Fundamentals 1 (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Semiconductor Device Physics (Bachelor Course), Electrical and Electronic Material Science (Bachelor Course), Graduate Research on Electrical and Electronic Engineering (Graduate School), Electrical and Electronic Engineering Elementary Laboratory (Bachelor Course), Special Lectures on Electrical and Electronic Engineering (Bachelor Course) |
Subject of Study: |
半導体デバイスの開発とナノ物性評価技術の研究 (semiconductor device, nanostructure, silicon, graphene, nanometrology) |
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Yasuzawa, Mikito (5.7%) / Professor [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Electrochemistry, Biomaterials |
Lecture: |
Introduction to STEM (Bachelor Course), STEM Practice (Bachelor Course), Global Communication B (Graduate School), Global Communication C (Graduate School), Presentation Method (D) (Graduate School), Advanced Environmental Technology on Chemistry (Graduate School), International Advanced Technology and Science 1 (Graduate School), International Advanced Technology and Science 2 (Graduate School), Basic Inorganic Chemistry (Bachelor Course), Special Lecture on Applied Chemistry 2 (Bachelor Course), Introduction to Technical English (Bachelor Course), Functional Materials (Graduate School), Introduction to Physical Chemistry (Bachelor Course), Advanced Physical Chemistry (Graduate School), Introduction to Science and Technology (Common Curriculum), Research Approaches in Science and Technology E (Graduate School), Reading Scientific Papers (Bachelor Course), Electrochemistry (Bachelor Course) |
Subject of Study: |
Preparation of Minimally Invasive Biosensor for Real-Tme Glucose Monitoring, Development of Antibody Sensors, Organic Syntheses using Modified SPE Electrode, Development of Biocompatible Materials, Development of Eco-Friendly Polymer Flocculant for Water Purification (Biosensor, Electrosynthesis, in vivo measurement, Biocompatible materials, SPE electrolysis, Water purification) |
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Minagawa, Keiji (3.4%) / Professor [Detail] |
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Academic Degree: |
博士(理学) |
Field of Study: |
Organic Materials Chemistry |
Lecture: |
SIH(Strike while the Iron is Hot) Training (Common Curriculum), STEM Practice (Bachelor Course), Bio-inspired Technology (Common Curriculum), Presentation Method (D) (Graduate School), Introduction for Academic Chemistry (Bachelor Course), Advanced Environmental Technology on Chemistry (Graduate School), Industrial Chemistry (Bachelor Course), Technical English Fundamentals 1 (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Organic Chemistry 4 (Bachelor Course), Functional Materials (Graduate School), Basis for Consumer-centered Society (Common Curriculum), Biological phenomena, biomaterials and biomimetics (Common Curriculum), Science and Technology Communication (Graduate School), Science and technology of common polymers (Common Curriculum), Advanced Polymer Chemistry (Graduate School) |
Subject of Study: |
Synthesis of electrorheological fluid materials, Analyses of structure change and molecular motion of polymers in solution, Polymerization induced by ultrasonic irradiation (polymer materials, ER fluid, electrorheology, sonochemistry) |
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Arakawa, Yukihiro (2.8%) / Associate Professor [Detail] |
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Academic Degree: |
Doctor of Engineering |
Field of Study: |
Synthetic Organic 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 1 (Bachelor Course), Organic Chemistry 2 (Bachelor Course), Organic Chemistry 3 (Bachelor Course), Introduction to Organic Chemistry (Bachelor Course), Exercises in Organic Chemistry (Bachelor Course), Advanced Organic Chemistry (Graduate School), Advenced Synthetic Organic Chemistry (Graduate School), Introduction to Science and Technology (Common Curriculum), Advanced Stereochemistry (Graduate School) |
Subject of Study: |
Biomimetic Organocatalysis, Polymeric Catalyst, Asymmetric Catalyst (organocatalysts, flavin, functional polymer, asymmetric synthesis) |
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(Imada, Yasushi) (2.0%) / Professor Emeritus [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Synthetic Organic Chemistry, Organometallic Chemistry |
Subject of Study: |
Organocatalytic Oxidations (Organocatalysis, oxidation, Environmentally Friendly Molecular Transformation, catalytic molecular transformation), Transition-Metal-Catalyzed Efficient Molecular Transformation (Transition Metal Catalyst, Stereoselective Reaction) |
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(Nagamune, Hideaki) (1.7%) / Professor Emeritus [Detail] |
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Academic Degree: |
医学博士 |
Field of Study: |
Microbiology, Immunology |
Subject of Study: |
QSAR and virulence analyses of streptococcal toxins, Application of bacterial toxins to the immunotherapy agaist cancer and the development of cellular medicines, Study on the substances stimulating the immune system by their action to biological membranes (bacterial toxins, Streptococci, immunotherapy, immunostimulater) |
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Tabata, Atsushi (1.4%) / Professor [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Microbiology |
Lecture: |
Immunoengineering (Bachelor Course), Molecular Pathogenic Microbiology (Graduate School), Undergraduate Work (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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Fujikata, Junichi (1.1%) / Professor [Detail] |
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Academic Degree: |
Doctor of Philosophy in Engineering |
Field of Study: |
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Lecture: |
Photonic Network (Graduate School), Guided-wave Optics (Bachelor Course), Advanced Lecture on Optical Communication System (Graduate School), Advanced Lecture in Optical Communication Systems (Graduate School), Optical Communications Technology (Bachelor Course), Basics on Semiconductor Nanotechnology (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Electricity and Magnetism (Common Curriculum) |
Subject of Study: |
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Katayama, Tetsuro (1.1%) / Assistant Professor [Detail] |
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Academic Degree: |
博士(理学) |
Field of Study: |
Physical Chemistry, Photochemistry |
Lecture: |
STEM Practice (Bachelor Course), Design Thinking (Graduate School), laser measurement (Bachelor Course), Optical Science and Technology Laboratory 1 (Bachelor Course), Optical Science and Technology Computation Exercise (Bachelor Course), Molecular Spectroscopy (Bachelor Course), Basics on Semiconductor Nanotechnology (Bachelor Course), Basic Photochemistry (Bachelor Course), Applied Photochemistry (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School) |
Subject of Study: |
反応ダイナミクス測定, 新規顕微分光手法の開発 (光電変換素過程, 超高速分光, マイクロ化学) |
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Kishikawa, Hiroki (1.1%) / Associate Professor [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Informatics [Information networks] |
Lecture: |
SIH(Strike while the Iron is Hot) Training (Common Curriculum), STEM Practice (Bachelor Course), オリエンテーション1年 (Bachelor Course), オリエンテーション2年 (Bachelor Course), Photonic Network (Graduate School), Lecture and Exercise in Programming (Bachelor Course), Exercises in Fundamentals of Optics (Bachelor Course), Optical Science and Technology Laboratory 1 (Bachelor Course), Optical Science and Technology Computation Exercise (Bachelor Course), Drill and Practice in Engineering Mathematics (Bachelor Course), Advanced Lecture on Optical Communication System (Graduate School), Advanced Lecture in Optical Communication Systems (Graduate School), Medicine-Photonics/Engineering Internship (Bachelor Course), Graduation Research (Bachelor Course), International Advanced Technology and Science A (Graduate School), International Advanced Technology and Science B (Graduate School), Ethics for Engineers and Scientists (Common Curriculum), Introduction to Technical English (Bachelor Course), Technical English Fundamentals 1 (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Wave Optics (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Laboratory Training (Bachelor Course), Reading Scientific Papers (Bachelor Course) |
Subject of Study: |
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Furube, Akihiro (1.1%) / Professor [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Nanotechnology/Materials [Nanomaterials] |
Lecture: |
オリエンテーション1年 (Bachelor Course), Nano-Optical Measument Engineering (Graduate School), Presentation Method (D) (Graduate School), laser measurement (Bachelor Course), Advanced Photoenergy Nano-Engineering (Graduate School), Graduate Research on Optical Science (Graduate School), Graduate Seminar on Optical Science (Graduate School), Lecture in Optical Materials and Devices, Part 2 (Graduate School), Optoelectronic Instruments Design and Exercise (Bachelor Course), Molecular Spectroscopy (Bachelor Course), Basics on Semiconductor Nanotechnology (Bachelor Course), Basic Photochemistry (Bachelor Course), Applied Photochemistry (Bachelor Course), Ethics for Engineers and Scientists (Common Curriculum), Interdisciplinary Seminar in Science and Technology (Graduate School), Polymer Chemistry (Bachelor Course) |
Subject of Study: |
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Kurashina, Masashi (0.3%) / Assistant Professor [Detail] |
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Academic Degree: |
博士(理学) |
Field of Study: |
Inorganic Chemistry, Coordination Chemistry |
Lecture: |
STEM Practice (Bachelor Course), Project Management Fundamentals (Bachelor Course), Advanced Environmental Technology on Chemistry (Graduate School), Basic Chemistry Laboratory (Bachelor Course), Basic Inorganic Chemistry (Bachelor Course), Applied Chemistry Laboratory 1 (Bachelor Course), Exercises in Physical Chemistry (Bachelor Course), Introduction to Science and Technology (Common Curriculum), Electrochemistry (Bachelor Course) |
Subject of Study: |
金属イオンを配列制御した材料の電子・磁気物性 (遷移金属イオン, 電子的相互作用, 磁性, 層状化合物) |
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Yanagiya, Shin-ichiro (0.3%) / Associate Professor [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Surface science, Crystal Growth, Applied Optics |
Lecture: |
STEM Practice (Bachelor Course), laser measurement (Bachelor Course), Exercises in Fundamentals of Optics (Bachelor Course), Optical Science and Technology Laboratory 1 (Bachelor Course), Optical Science and Technology Computation Exercise (Bachelor Course), Optical Crystal Engineering (Graduate School), Basics on Semiconductor Nanotechnology (Bachelor Course), Graduation Work (Bachelor Course), Applied Photochemistry (Bachelor Course), Ethics for Engineers and Scientists (Common Curriculum), Thermodynamics (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Reading Scientific Papers (Bachelor Course) |
Subject of Study: |
Crystal Designs for nano phtonics, Mesoscopic physics in cells, Hybrid microscopy using advanced optical microscope with atomics force microscope (microscope, optics, surface, nano, crystal growth) |
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Okamoto, Toshihiro (0.3%) / Associate Professor [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Nonlinear Optics, Plasmonics, Nanophotonics, Metamaterial |
Lecture: |
STEM Practice (Bachelor Course), Advanced Lecture in Nanophotonics (Graduate School), Photonic Device (Graduate School), Seminar to Optical Systems (Bachelor Course), Optical Devices (Bachelor Course), Optical Science and Technology Laboratory 1 (Bachelor Course), Optical Science and Technology Laboratory 2 (Bachelor Course), Optical Science and Technology Computation Exercise (Bachelor Course), Lecture in Optical Materials and Devices, Part 1 (Graduate School), Optical Propertics of Materials (Graduate School), Advanced Exercises on Optical Science and Engineering (Bachelor Course), Basics on Semiconductor Nanotechnology (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School) |
Subject of Study: |
全光学型光スイッチ及び光双安定現象の研究, 局在表面プラズモン特性を用いたナノ構造非線形光デバイスの研究, 電磁メタマテリアルの非線形光学応答に関する研究, プラズモン導波路に関する研究 (nonlinear optics, 光スイッチ現象, 光双安定現象, nanostructure, 局在表面プラズモン, メタマテリアル, プラズモン導波路) |
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Haraguchi, Masanobu (0.3%) / Professor [Detail] |
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Academic Degree: |
博士(工学) |
Field of Study: |
Micro Optics, Nanophotonics, Plasmonics, Quantum Optics |
Lecture: |
Introduction to STEM (Bachelor Course), Advanced Lecture in Nanophotonics (Graduate School), Photonic Device (Graduate School), Presentation Method (D) (Graduate School), Laser Physics and Applications (Bachelor Course), Optical and Electronic Properties of Materials (Bachelor Course), Drill and Practice in Engineering Mathematics (Bachelor Course), Lecture in Optical Materials and Devices, Part 1 (Graduate School), Optical Propertics of Materials (Graduate School), Methodology of Teaching Industrial Subjects II (Bachelor Course), Applied Photochemistry (Bachelor Course), Introduction to Technical English (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Lecture and Exercise in Fundamentals of Electric Circuits (Bachelor Course) |
Subject of Study: |
Nanophotonics with plasmons, optical properties of the nonlinear micro sphere, plasmonic waveguide device (plasmonics, nanophotonics, surface plasmon polariton, localized plasmon, nonlinear optics, dielectric microsphere, optical mode, photonic band), photonic crystal, micro-sphere (photonic crystal, light localization, optical property) |
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