28ProfessorKIMURA MutsumiProfessorGOTOH YasuoOutlook for researchI carry out research into environmental purificationcatalysts on the nano-scale, highly sensitive sensorsthatchemicalsubstances, and functional materials that allow theproduction of colorful solar panels. These materialsare the keys to developing a society capable ofsustainable growth.can detecttrace amounts ofOutlook for students after graduationGraduates go on to work primarily at chemical andmaterial manufacturers, but some also work atelectrical and machinery manufacturersOutlook for researchWhen used in the bodies of moving vehiclessuch as aircraft and cars, these fibers canreduce weight, improving fuel efficiency andleading to energy savings.Improving theperformance and functionality of fiber is anarea of research that contributes to thefuture of humanity.Outlook for students after graduationlab can learn polymerStudents in ourprocessingofthrough manyfundamental experiments. Most of graduatesare employed by chemical and materialcompanies by utilizing their experiencesabout physical properties of polymers.Department ofChemistry and MaterialsDepartment ofChemistry and Materialsdoctoralhigh-polymersolidsProfessorgraduatedKimurafromTsukuba University in 1990and from that univ ersity’s master'sprogram in environmental sciencein 1992. He completed the ShinshuSchool ofUniversity GraduateEngineering’sresearchProgram in 1995. His area ofspecialization is functional materialchemistry.Professor Gotoh took his currentposition in 2016 after serving in theFaculty of Textile Science andTechnology at Shinshu University asan assistant professor and then anassociate professor. His area ofResearch isfiber and polymermaterial science, and he currentlyfocuses on research into theproperties of compound materialsandthatcombine organic and inorganicmaterials.This green solar cell imitates photosynthesis.A plant is a small chemical plant.By using m aterials at the nano- scale, it becomes possible to detect extremely low concentrations of gas (as part of the effort to develop artificial olf actory sensors).Polymer solution is spun through a spinneret via dry-jet wet spinning process.Here, fiber is being stretched on a heating plate. This process increases the strength of the fiber by a factor of 10.Running fiberI am pursuing research into high-efficiency conversion of theenergy and chemicals found within living things by artificiallyimitating the detailed structures found in them. Specifically,my research includes the breaking down of hazardoussubstances found in the environment, chemical sensors thatcan detect trace amounts of substances, and solar panelsmade without silicon.Fiber is a material that is essential in our daily lives, andWe are pursuing research to make many kinds of fiberseven more useful. Currently, our lab is focusing onresearch of developing very strong and eco-friendly fibersby some types of solution spinning. Our research cancontribute SDGs truly.kindDiscovering new functional materials through nanotech and realizing new functionality by imitating the structure of living thingsFabrication of high-function fibers to facilitate safer and more comfortable lifestyles
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