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Development of Multi-Stage Logistics Planning Method Under an Unsteady Demand and Supply Environment
名古屋工業大学博士(工学)Doctor of Engineering主査:荒川 雅裕doctoral thesi
Realization of non-flat totally geodesic surfaces in symmetric spaces of type A
名古屋工業大学博士(学術)Doctor of Philosophy主査:大橋 美佐doctoral thesi
Fabrication and Properties of Methylammonium Bismuth Iodide [(CH3NH3)3Bi2I9] Perovskite Solar Cell by the Multi-step Spin Coating and the Hot Immersion Method
名古屋工業大学博士(工学)Doctor of Engineering主査:曾我 哲夫doctoral thesi
Cooperative Optimization-Based Efficient Autonomous Parameter Design for Cascade Feedback Control System
Loughborough, United Kingdom, 15-17 March 2023conference pape
Vitruvius and Military Engineering
ウィトルウィウスは,古代ローマの建築家としてだけではなく,軍事技術者として紹介されることが一般的である.彼の名声を不朽にした『建築書』には,彼がローマ軍のため弩砲などの軍事兵器の供給や修理をしたこと,および兵器の解説も記されている.『建築書』における軍事技術に関わる記述の中からウィトルウィウスの特色が見出される点を取り上げ,建築や工学技術全体の中で,ウィトルウィウスが軍事技術にどのような比重と位置づけを与えていたかを考察する.departmental bulletin pape
Drop-dry Deposition of Metal Hydroxide/Oxide Thin Films for Semiconductor Applications
名古屋工業大学博士(工学)Doctor of Engineering主査:市村 正也doctoral thesi
Investigation on Improving Performances of Electrified Vehicle Components
名古屋工業大学Nagoya Institute of Technology博士(工学)Doctor of Engineering主査:竹下 隆晴doctoral thesi
高圧ねじり加工による高歪み・高エントロピー光触媒
Environmental problems caused using fossil fuels and carbon dioxide emissions have greatly affected not only social and ethical issues but also economic systems since the Paris Agreement, and values in the world are about to change drastically. In response to these changes, many scientific and technological studies have been conducted. Photocatalysis as one of them is expected to be a clean technology to produce hydrogen fuel, conversion of harmful components such as carbon dioxide, and decomposition of pollutants such as dyes in water. In recent years, various methods have been proposed to improve photocatalytic performance. High-pressure torsion(HPT)processing has been shown to improve the activity of conventional photocatalysts and has shown tremendous potential as an effective method for synthesizing new highly efficient photocatalysts. This method can successfully improve the activity by introducing large lattice distortion, oxygen vacancies, nitrogen vacancies, high-pressure phases, and heterojunctions to increase light absorption, narrow the band gap, align the band structure, reduce electron-hole recombination, and promote electron-hole separation. In this paper, we present recent findings on the improvement of photocatalytic efficiency by HPT treatment and discuss the parameters that lead to such improvements.departmental bulletin pape