繊維学部研究紹介_2018_英語版
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42Masashi WatanabeProfessorApplied Molecular ChemistryPrinting microchemical chipsDepartment of Chemistry and MaterialsI am engaged in developing technology to enable printing of microchemical chips. My lab is working to develop technology that will allow end-users to design their own microchemical chips and then print them using an inkjet printer.Professor Watanabe conducted research into organic synthetic chemistry for his graduate research in the department and in a graduate school course. Following some twists and turns in his career, he now specializes in polymer chemistry and chemical engineering.Technology for printing microchemical chips with an inkjet printer is still in the early stages, and we do not yet know whether it will prove to be viable in the future.Outlook for researchIn light of the large number of interesting domains, my hope is that graduates will choose their jobs freely, irrespective of their graduate research.Outlook for students after graduationA microchemical chip is used for extraction via the oil/water interface.Two types of liquid are mixed in a microchemical chip.An organic solution.waterwaterApplied Molecular ChemistryDeveloping cutting-edge polymer particles and pursuing science in the mysterious world of the micro-scaleDepartment of Chemistry and MaterialsI am working to develop functional polymer particles, a type of material that is both old and new and that promises applications in paints and inks and in components for cutting-edge materials. In my research, I first design functional particles, propose new synthesis methods, properly evaluate the resulting particles, and, finally, consider the possible applications in which they can be expected to play a useful role.Daisuke SuzukiAssociate ProfessorAfter obtaining his doctorate (in engineering) at Keio University, Associate Professor Suzuki worked as a researcher at the Georgia Institute of Technology and at the University of Tokyo, and as an assistant professor under the Shinshu University Young Researchers Empowerment Project before taking his current position 2013. He specializes in polymer chemistry, colloid chemistry, and material chemistry.I hope to consult with scientists throughout the world to understand the nano-space, which is invisible to the naked eye, and to create materials that will enrich our daily lives.Outlook for researchMy goal is for students to experience the joy of creating things during their school years to give them an interest in science.Outlook for students after graduationThe particles, which are invisible to the naked eye, look like this when viewed through an electron microscope. Each particle has a diameter of 400 nm.While this liquid looks at a glance like milk, here we are dispersing polymer particles in normal water.

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