| Okada, Tatsuya (80.9%) / Professor [Detail] |
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| Academic Degree: |
Ph.D. |
| Field of Study: |
texture control, Crystallographic Defect |
| Lecture: |
STEM Practice (Bachelor Course), オリエンテーション3年 (Bachelor Course), Presentation Method (D) (Graduate School), Technical English Fundamentals 1 (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Engineering Materials 1 (Bachelor Course), Mechanical Properties of Materials (Graduate School), Controlling Physical Properties of Crystalline Materials (Graduate School) |
| Subject of Study: |
SEM/EBSD analysis of deformed and recrystallized microstructures in pure metals (texture control, recrystallization, crystal plasticity, single crystal, bicrystal, tricrystal, SEM/EBSD), TEM observation of crystallographic defects in semiconductors (SiC, crystallographic defect, epitaxial film, transmission electron microscopy, diamond) |
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| Tomita, Takuro (45.7%) / Associate Professor [Detail] |
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| Academic Degree: |
Doctor of Science |
| Field of Study: |
光物質科学, Optical Condensed Matter Physics, Semiconductor Physics |
| Lecture: |
STEM Practice (Bachelor Course), Presentation Method (D) (Graduate School), Advanced Optoelectronic Materials Science (Graduate School), Semiconductor Physics (Bachelor Course), Ethics for Engineers and Scientists (Common Curriculum), Optical and Functional Inorganic Materials (Graduate School), Interdisciplinary Seminar in Science and Technology (Graduate School), Graduate Research on Electrical and Electronic Engineering (Graduate School), Electrical and Electronic Engineering Elementary Laboratory (Bachelor Course) |
| Subject of Study: |
Laser-induced material modification, Laser processing, Laser-induced nano-periodic structures (femtosecond laser processing/modification), Raman Spectroscopy, Ultrafast Spectroscopy, Magneto-Optical Spectroscopy (optical properties of solid), Bond-Raman-Polarizability model in Wide-band-gap semiconductors, Electron-Phonon interactions in semiconductors (半導体物理) |
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| Hisazawa, Hiromu (35.1%) / Assistant Professor [Detail] |
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| Academic Degree: |
Doctor of Engineering |
| Field of Study: |
Metallic Materials |
| Lecture: |
オリエンテーション1年 (Bachelor Course), オリエンテーション3年 (Bachelor Course), Elements of Mechanics 2 (Bachelor Course), Fundamentals of Mechanical CAD Drawing (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Mechanical Engineering Laboratory 3 (Bachelor Course), Graduate Seminar on Mechanical Science (Graduate School) |
| Subject of Study: |
Microstructure control in Ni-based heat resistance alloys (Ni-based superalloys, microstructure control, image processing, transmission electron microscopy, heat treatment) |
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| Noguchi, Naoki (5.3%) / Assistant Professor [Detail] |
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| Academic Degree: |
Ph.D. |
| Field of Study: |
Optical Physics |
| Lecture: |
STEM Practice (Bachelor Course), Basic Chemistry Laboratory (Bachelor Course), Applied Chemistry Laboratory 1 (Bachelor Course), Exercises in Physical Chemistry (Bachelor Course) |
| Subject of Study: |
高圧光物性, 地球惑星物質学 |
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| Yoshida, Ken (5.3%) / Associate Professor [Detail] |
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| Academic Degree: |
PhD |
| Field of Study: |
Physical Chemistry, Solution Chemistry |
| Lecture: |
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), Reading Scientific Papers (Bachelor Course) |
| Subject of Study: |
Physical Chemistry in Liquids and Fluids |
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| Murai, Kei-ichiro (4.3%) / Associate Professor [Detail] |
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| Academic Degree: |
博士(理学) |
| Field of Study: |
Crystal Physics |
| Lecture: |
STEM Practice (Bachelor Course), Advanced Environmental Technology on Chemistry (Graduate School), Basic Chemistry Laboratory (Bachelor Course), Applied Chemistry Laboratory 2 (Bachelor Course), Materials and Process Engineering (Bachelor Course), Material Science (Bachelor Course), Advanced Materials Science (Graduate School), Surface Science and Technology (Graduate School) |
| Subject of Study: |
機能性無機材料の熱膨張に関する構造化学的研究, X線回折法·XAFS法を用いた機能性無機材料の構造解析 (X-ray absorption fine structure (XAFS), Atomic vibration in crystal, X-ray crystallography) |
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| Oishi, Masatsugu (3.2%) / Associate Professor [Detail] |
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| Academic Degree: |
Dr. Eng. |
| Field of Study: |
Solid State Ionics, Electrochemistry |
| Lecture: |
Energy and Environmental Engineering (Graduate School), オリエンテーション1年 (Bachelor Course), オリエンテーション3年 (Bachelor Course), Elements of Mechanics 1 (Bachelor Course), Elements of Mechanics 2 (Bachelor Course), Fundamentals of Mechanical CAD Drawing (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Mechaniacal Dynamics 2 (Bachelor Course), Graduate Seminar on Mechanical Science (Graduate School), Machine Design 2 (Bachelor Course), Thermal Energy Control (Graduate School), Research Approaches in Science and Technology E (Graduate School) |
| Subject of Study: |
Fuel cell, Secondary battery,phosphor |
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| Sugano, Satoshi (2.1%) / 技術専門職員 [Detail] |
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| Academic Degree: |
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| Field of Study: |
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| Subject of Study: |
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| Yamamoto, Takashi (2.1%) / Associate Professor [Detail] |
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| Academic Degree: |
博士(工学) |
| Field of Study: |
Environmental Physical Chemistry, Catalytic Chemistry, X-ray Spectrometry |
| Lecture: |
SIH(Strike while the Iron is Hot) Training (Common Curriculum), Analytical Chemistry 1 (Bachelor Course), Analytical Chemistry 2 (Bachelor Course), Introductory Laboratory for Chemistry (Bachelor Course), Laboratory for Chemistry 1 (Bachelor Course), Laboratory for Chemistry 2 (Bachelor Course), Graduation Work (Bachelor Course), Seminar on Natural Sciences (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Inorganic Chemistry 1 (Bachelor Course), Inorganic Chemistry 2 (Bachelor Course), Physical Chemistry 1 (Bachelor Course), Physical Chemistry 2 (Bachelor Course), Advanced Material Chemistry (Graduate School), Interdisciplinary Seminar in Science and Technology (Graduate School), Advanced Environmental Physical Chemistry (Graduate School), Graduate Research on Natural Sciences (Graduate School), Graduate Seminar on Natural Sciences (Graduate School), Reading Scientific Papers (Bachelor Course) |
| Subject of Study: |
新規固体触媒の開発と物性発現機構解明, X線分析化学 (固体酸塩基, 複合酸化物, ナノレベル構造解析, XAFS, 環境触媒) |
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| Koinkar, Pankaj (2.1%) / Associate Professor [Detail] |
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| Academic Degree: |
Ph.D (Physics) |
| Field of Study: |
Nanomaterials, Engineering Education |
| Lecture: |
Global Communication B (Graduate School), Global Communication C (Graduate School), Nanomaterials Technology (Graduate School), Micro-nano Photonics (Bachelor Course), Advanced Photoenergy Nano-Engineering (Graduate School), Lecture in Optical Materials and Devices, Part 2 (Graduate School), International Advanced Technology and Science A (Graduate School), International Advanced Technology and Science B (Graduate School), Introduction to Technical English (Bachelor Course), Technical English Fundamentals 1 (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Research Approaches in Science and Technology E (Graduate School) |
| Subject of Study: |
Development of 2D Nanomaterials based metal composites to study light emission behavior (Laser ablation, Liquid exfoliation, Photocatalysis, Field electron Emission, Sensor) |
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| Moriga, Toshihiro (2.1%) / Professor [Detail] |
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| Academic Degree: |
Dr., Sci. |
| Field of Study: |
Inorganic Materials Chemistry |
| Lecture: |
Introduction to STEM (Bachelor Course), STEM Practice (Bachelor Course), Presentation Method (D) (Graduate School), Advanced Environmental Technology on Chemistry (Graduate School), Basic Inorganic Chemistry (Bachelor Course), Industrial Chemistry (Bachelor Course), Physical Properties of Materials (Bachelor Course), Advanced Materials Science (Graduate School), Inorganic Chemistry (Bachelor Course), Research Approaches in Science and Technology B (Graduate School), Surface Science and Technology (Graduate School), Reading Scientific Papers (Bachelor Course) |
| Subject of Study: |
Research and development of novel transparent conducting oxides, Synthesis and structural analysis of metal oxynitrides, Research and Development of materials containing rare-earth metal oxides, Structural chemistry on combustion catalysts, Basic research on electrode materials for lithium ion secondary battery (transparent conducting oxides, metal oxynitrides, Phosphors, superionic conductors, X-ray diffractometry, X-ray spectroscopy) |
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| Yonekura, Daisuke (2.1%) / Professor [Detail] |
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| Academic Degree: |
博士(工学) |
| Field of Study: |
Fracture Mechanics, Functional Materials, Fracture Mechanics, Tribology, Fracture Mechanics, Functional Materials, 粉体工学 |
| Lecture: |
オリエンテーション3年 (Bachelor Course), Presentation Method (D) (Graduate School), Manufacturing Process 2 (Bachelor Course), Advanced Strength and Fracture of Materials (Graduate School), Engineering Materials 2 (Bachelor Course), Mechanical Engineering Laboratory 3 (Bachelor Course), Design of Machine Elements and Drawing (Bachelor Course), Research Approaches in Science and Technology A (Graduate School), Materials Surface Performance Control (Graduate School) |
| Subject of Study: |
硬質薄膜被覆材の疲労破壊特性 (thin film, 応力拡大係数, 疲労, 表面改質, residual stress, フレッティング), スパッタリング法を用いた機能性薄膜の創製 (sputtering, thin film, transparent conducting oxides, photocatalyst, 透明ガスバリア膜), 硬質薄膜被覆材の密着強度および摩耗特性 (硬質薄膜, PVD法, 摩擦·摩耗, 密着強度), 各種接合材の強度 (residual stress, welding, はんだ接合, ultrasound), 粉体の付着を抑制する表面処理に関する研究 (, 粉体, 付着力) |
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| Shimoda, Naohiro (1.1%) / Assistant Professor [Detail] |
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| Academic Degree: |
博士(工学) |
| Field of Study: |
Catalyitc Reaction Engineering |
| Lecture: |
STEM Practice (Bachelor Course), Introduction to Chemical Reaction Engineering (Bachelor Course), Exercises in Reaction Engineering (Bachelor Course), Chemical Process Design (Bachelor Course), Basic Chemistry Laboratory (Bachelor Course), Applied Chemistry Laboratory 2 (Bachelor Course), Special Lecture on Applied Chemistry 3 (Bachelor Course), Catalytic Science and Technology (Bachelor Course) |
| Subject of Study: |
Development of solid catalysts for energy carrier utilization (固体触媒, reaction engineering, エネルギーキャリア, hydrogen) |
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| Mizuguchi, Hitoshi (1.1%) / Associate Professor [Detail] |
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| Academic Degree: |
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), 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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| Asada, Chikako (1.1%) / Professor [Detail] |
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| Academic Degree: |
博士(工学) |
| Field of Study: |
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| Lecture: |
Biomass Utilization (Bachelor Course), Biomass Practice (Bachelor Course), Undergraduate Work (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), Advanced Environmental Biology (Graduate School), 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), Reading Scientific Papers (Bachelor Course), Reading Scientific Papers Ⅰ (Bachelor Course), Reading Scientific Papers Ⅱ (Bachelor Course) |
| Subject of Study: |
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| Nakagaito, Antonio Norio (1.1%) / Associate Professor [Detail] |
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| Academic Degree: |
Doctor of Agriculture |
| Field of Study: |
材料科学 |
| Lecture: |
オリエンテーション3年 (Bachelor Course), Global Communication B (Graduate School), International Advanced Technology and Science A (Graduate School), International Advanced Technology and Science B (Graduate School), Introduction to Technical English (Bachelor Course), Strength of Materials 1 (Bachelor Course), Materials Science and Engineering (Graduate School), Material Applications (Graduate School), Mechanical Engineering Laboratory 3 (Bachelor Course), Research Approaches in Science and Technology E (Graduate School) |
| Subject of Study: |
セルロースナノファイバーに基づく複合材料の開発 (セルロース, ナノファイバー, ナノコンポジット, バイオポリマー) |
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| Minamoto, Takashi (1.1%) / 技術専門職員 [Detail] |
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| Academic Degree: |
博士(工学) |
| Field of Study: |
土木・建築工学 |
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| Subject of Study: |
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| Miyoshi, Hirokazu (1.1%) / Professor [Detail] |
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| Academic Degree: |
Doctor of Engineering |
| Field of Study: |
Radiation Chemistry, Nanomaterials, Radiation Safety Management |
| Lecture: |
Presentation Method (D) (Graduate School), Advanced Quantum Chemistry (Graduate School) |
| Subject of Study: |
シリカナノ粒子のネットワーク構造化とその放射線効果に関する研究 (シリカナノ粒子), 機能性分子を固定したシリカナノ粒子に関する研究, 教育訓練並びにRI施設における安全管理に関する研究 |
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| Takagi, Hitoshi (1.1%) / Professor [Detail] |
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| Academic Degree: |
Doctor of Engineering |
| Field of Study: |
Ecomaterials Science |
| Lecture: |
オリエンテーション3年 (Bachelor Course), Presentation Method (D) (Graduate School), Fundamentals of Mechanical CAD Drawing (Bachelor Course), Space Nutrition/Medicine (Graduate School), Technical English Fundamentals 2 (Bachelor Course), Strength of Materials 1 (Bachelor Course), Materials Science and Engineering (Graduate School), Material Applications (Graduate School), Engineering Materials 1 (Bachelor Course) |
| Subject of Study: |
Development of green composites and their characteristic evaluation, Development of supercomposites and their characteristic evaluation, Research on microscopic fracture behavior of composite materials, Development of the microactuator using a shape memory alloy thin film, Development of the advanced recycling technology of the bearing grinding swarf (Composites, Green Composites, Recycle, Shape Memory Alloys, Bamboo Fiber) |
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| Katoh, Masahiro (1.1%) / Professor [Detail] |
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| Academic Degree: |
Doctor of Engineering |
| Field of Study: |
Chemical Engineering, Separation Engineering |
| Lecture: |
STEM Practice (Bachelor Course), Presentation Method (D) (Graduate School), Chemical Process Design and Development (Graduate School), Separation Science and Technology (Bachelor Course), Advanced Separation Technology (Graduate School), Advanced Topics in Chemical Process Engineering (Graduate School), Introduction to Chemical Engineering (Bachelor Course), Advanced Environmental Technology on Chemistry (Graduate School), Powder Engineering (Bachelor Course), Automatic Control (Bachelor Course) |
| Subject of Study: |
Development of hydrogen production process with Pd membrane, Preparation of porous materials and evaluation of the gas adsorption characteristics, Evaluation of the adsorption characteristics by IR spectroscopy (Pd membrane, hydrogen production process, adsorption, zeolite, infrared spectroscopy) |
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| (Sugiyama, Shigeru) (1.1%) / (Retired) [Detail] |
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| Academic Degree: |
Doctor of Engineering |
| Field of Study: |
Reaction Engineering |
| Subject of Study: |
Oxidative Dehydrogenation of Alkanes on Solid Catalysts, Conversion of various alcohols on mesoporous silica doped with various cations, Catalytic preparation of precursors of methyl methacrylate, Application of microreactor to solid catalysts, Recovery of phosphorus from unused resources (alkane, Mesoporous silica, alcohols, Microreactor, Recovery of phosphorus, Unused resources) |
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| Yasuzawa, Mikito (1.1%) / 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), 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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