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Moriga, Toshihiro (83.4%) / 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), Introduction to Science and Technology (Common Curriculum), 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)
Murai, Kei-ichiro (37.1%) / 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), Introduction to Science and Technology (Common Curriculum), 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)
Nakamura, Koichi (8.3%) / Professor   [Detail]
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Academic Degree: Doctor of Science
Field of Study: Solid State Physics
Lecture: SIH(Strike while the Iron is Hot) Training (Common Curriculum), オリエンテーション1年 (Bachelor Course), Presentation Method (D) (Graduate School), Elements of Mechanics 1 (Bachelor Course), Elements of Mechanics 2 (Bachelor Course), Graduation Work (Bachelor Course), Solid State Ionics (Graduate School), Mechanics (Common Curriculum), Electricity and Magnetism (Common Curriculum), Seminar on Natural Sciences (Bachelor Course), Ethics for Engineers and Scientists (Common Curriculum), Technical English Fundamentals 2 (Bachelor Course), 教員養成講座(前期) (Bachelor Course), 教員養成講座(後期) (Bachelor Course), Physics of Condensed Matter 1 (Bachelor Course), Introductory Laboratory in Physics for Engineering Sciences (Bachelor Course), Laboratory for Physical Science 1 (Bachelor Course), Laboratory for Physical Science 2 (Bachelor Course), Introduction to Science and Technology (Common Curriculum), Interdisciplinary Seminar in Science and Technology (Graduate School), Methodology of Teaching Science II (Bachelor Course), Methodology of Teaching Science IV (Bachelor Course), Statistical Mechanics for Engineering Sciences (Bachelor Course), Graduate Research on Natural Sciences (Graduate School), Graduate Seminar on Natural Sciences (Graduate School), Quantum Mechanics for Engineering Sciences (Bachelor Course), Reading Scientific Papers (Bachelor Course), Radio Frequency Solid State Physics (Graduate School)
Subject of Study: Li+ ion difusion in electerode materials for Li ion rechargeable batteries, Li+ ion diffusion in Li alloys, Na+ ion diffusion in electrode materials for Na ion rechargeable batteries, Local changes in crystal structure and ion dynamics by mechanical milling, Development of non-linear resonant ultrasonic method (Cathode and anode materials for Li ion rechargeable batteries, superionic conductor, Li transition metal oxide, ionic diffusion, Li+ ion diffusion, Li+ ion conductor, Na+ ion diffusion, Na+ ion conductor, nuclear magnetic resonance, Mechanical milling, Ultrasonic method, Electrical conductivity measurement)
(Kanashiro, Tatsuo) (8.3%) / Professor Emeritus   [Detail]
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Academic Degree: Doctor of Science
Field of Study: Solid State Physics
Subject of Study: NMR Study on Lithium Ion Coductors, Ion Dynamics of Noble Metal Conductors (Ionic Conductors, Batteries, nuclear magnetic resonance)
(Sugiyama, Shigeru) (6.8%) / Professor Emeritus   [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)
Katoh, Masahiro (5.4%) / 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), Introduction to Science and Technology (Common Curriculum), 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)
(Tomida, Tahei) (2.9%) / Professor Emeritus   [Detail]
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Academic Degree: Doctor of Engineering
Field of Study: Chemical Engineering, Separation Engineering
Subject of Study: 溶存金属イオンの回収·除去法の開発, 多孔性吸着剤の開発研究, 光触媒による環境浄化に関する研究, ガス吸収装置 (ガス吸収, 吸着, 金属イオン, 光触媒, 膜分離)
(Miwa, Kei) (2.0%) / Professor Emeritus   [Detail]
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Academic Degree: Dr.Engineering
Field of Study: Internal Combustion Engine
Subject of Study: Reduction of Emissions of Diesel Engines, Ignition and combustion mechanism of unsteady sprays, Development of Hydrogen Intenal Combustion Engine (Diesel Combustion, Hydrogen Fuel, Zero-Emisson)
Kidoguchi, Yoshiyuki (2.0%) / Professor   [Detail]
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Academic Degree: Engineering
Field of Study: Combustion Engineering
Lecture: Energy and Environmental Engineering (Graduate School), オリエンテーション3年 (Bachelor Course), Presentation Method (D) (Graduate School), Technical English Fundamentals 2 (Bachelor Course), Mechanical Engineering Laboratory 1 (Bachelor Course), Design of Machine Elements and Drawing (Bachelor Course), Thermal Engineering 2 (Bachelor Course), Advanced conversion systems of resource energy (Graduate School)
Subject of Study: Reduction of exhaust emissions from direct-injection disel engines (diesel engine, combustion, Emmission, hydrogen, computational fluid dynamics, after treatment)
(Terao, Hiromitsu) (0.5%) / Professor Emeritus   [Detail]
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Academic Degree: Dr. of Science, 広島大学
Field of Study: Inorganic Solid State Chemistry
Subject of Study: Structure and Physical Properties of Halogeno Complexes (chemical bond, crystal structure, molecular motion, phase transition, nuclear quadrupole resonance)
(Hayashi, Hiromu) (0.5%) / Professor Emeritus   [Detail]
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Academic Degree: 工学博士
Field of Study: Chemical Process Developments, Catalyst & Catalysis, Reactor Design
Subject of Study: ヒドラジン製造プロセスの開発研究 (ヒドラジン, 銅系レドックス触媒, 空気酸化プロセス), Telluromolybdates. Structure and Catalysis., Catalysts for Organic Carbonates Synthesis (Additive Teluromolybdates), 硝酸性窒素の湿式還元分解の触媒開発ならびに装置工学的研究 (硝酸性ならびに亜硝酸性窒素, Pd/C; Cu/Pd/C, 懸濁触媒系, 液循環固定床, 多段メッシュ, モノリス反応器)