繊維学部研究紹介_2018_英語版
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34Fiber Materials EngineeringMicrowave chemistryDepartment of Chemistry and MaterialsI am studying to create new materials using microwaves and their physical properties. The "radio waves", you think that communication applications such as radio and television, satellite communications, mobile phones, wireless LAN, etc. are the main applications. Now, every homes has a "Microwave oven" also uses similar "radio waves", but this is not a device for communication tool. Since cooking can also be thought of as a chemical process, I am further searching for "usage for chemistry, chemical reactions and chemical processes" to use advanced science and engineering. Irradiating microwaves to inorganic materials (for example, carbon particle) using the domestic microwave oscillator in the above photo, it is possible to create a compact high-temperature furnace of about 800 °C. or more high. Then gaseous methane into contact with carbon, it becomes ecient converter to generate hydrogen.Tokihiro TakizawaAssistant ProfessorAssistant Professor Takizawa graduated from the Functional Polymer Science Course in the Faculty of Textile Science and Technology at Shinshu University. He took his current position after working in the Faculty as a research associate and assistant professor. His area of interest is general material properties.The origin of the research can be anything. If you have something you want to do, wondering, rst of all, it is important to "think yourself" for that solution.Outlook for researchYou should be able to positively propose processes (things to do) and systems (concrete solutions to the problem) towards issues to be solved in any eld.Outlook for students after graduationMaterials dissolve when cooledGenerally, materials dissolve by heating and/or adding solvents. HOWEVER, these material dissolve by cooling. Fibers and particles can be easily prepared.3D engineered tissue composed of cells and proteinsBy arranging cells (20-50 mm in diameter), various 3D tissues can be constructed. A new way to “Tissue Engineering”.Superhydrophobic nonwovens prepared from only amino acidsThe challenge is to reproduce the superhydrophobicity of lotus leaves without uorine, using just biocomponents.Fiber Materials EngineeringCreation of safe/secure materials from natural compounds for bio/environmental applicationsDepartment of Chemistry and MaterialsSafety and security are very important properties for medical and environmental materials. However, most materials used in biomedical situations are synthesized from oils, so developing truly safe and secure materials from bio-derived components is imperative. We are creating novel functional materials for use in biomedical and environmental applications by chemically-modifying natural compounds with good safety and security properties and then engineering and processing them appropriately. Hiroaki YoshidaAssistant ProfessorAfter completion of PhD work at Osaka University (2011), Prof. Yoshida worked as a researcher at the Georgia Institute of Technology and Osaka University before taking his current position (2014). Professional interests: Polymer Chemistry and Materials, Biomaterials.Developing novel functional materials, such as biomaterials for serious diseases and adsorption/separation materials for environmental pollution is essential to solve general problems in society today. As well, nding new materials is denitely linked to nding a new usage, and to design and develop materials to meet future challenges.Outlook for researchI believe students can choose a variety of career paths after graduation because of their wide knowledge and experience in various elds such as chemistry, biology and material science & engineering.Outlook for students after graduation

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