Dye sensitive solar cellSuprampoleculr gelTiO2 nano FiberCulturing fibroblastsSupermolecular gels formed from organic solutions using an L-amino acid-based low-molecular-weight gelling agent. We have created solid gels that do not fall out, even when held upside-down.Gelling agent structure30Outlook for researchOutlook for students after graduationGraduates are primarily employed by chemicalmanufacturers.chemicalresearchers enable them to find work in a widevariety of fields.TheirOutlook for researchIn addition to CO2 separation and collectiontechnology, my research has ramifications fortree-planting in dry areas as well as efficientconversion of wood biomass to solid fuel anduseful adsorbents. I would like to contributeenergyenvironmentaltoproblems with well utilizing CO2, which is avaluable carbon source and we human beingsrely on, in the carbon circulation system.solvingOutlook for students after graduationpursueGraduatestoemployment at not only chemical plantmanufacturers and environmental engineeringchemicals and foodcompanies but alsomanufacturers and so on.ProfessorSUZUKI MasahiroProfessorTAKAHASHI NobuhideDepartment ofChemistry and MaterialsDepartment ofChemistry and MaterialsProfessor Suzuki took his currentposition in 2015 after working asandanassociate professor at the ShinshuUniversityInterdisciplinaryGraduate School of Science andTechnology. His principal areas ofresearch include low-molecular-weight gelling agents, functionalpolymer materials, and artificialphotosynthesis.After obtaining his doctorate at theUniversity of Tokyo, Professor Takahashiworked as an assistant professor andassociate professor in the Faculty ofatTextile Science and TechnologyShinshu University before taking hiscurrent position in 2014.His areas ofspecialization are chemical engineeringand environmental engineering, and hebases his research on the concept thatCO2 + water + soil + sunlight +toknowledgesustainable society.It is important to design the total system where the individual technologiescan be combined successfully for efficient CO2 utilization and prevention ofglobal warming.Membrane contactor using fine hollowfibers with nano-scale poresEthanolNitrobenzeneassistantprofessortechnologyleadI am carrying out research into the development andapplication of low-molecular-weight gelling agents forgelling such liquids as oils, organic solutions, and watersolutions. There is high demand for low-molecular-weightincluding oil-processinggelling agents in many fields,pharmaceuticalcosmetics, medicalagents,applications,foods, writing supplies, paints and inks,electronic devices, and LCDs.I am researching technologies for separating and collectingCO2 from the atmosphere or effluent gases. Specifically, byapplying an absorbing liquid that reacts with CO2 to theinside of a cylindrical hollow fiber membrane, I hope toabsorb only the CO2 from the effluent gas on the outside. Ifthis technology can be developed, I expect it to lower thecost of CO2 separation and collection.fortheseMuch research into applicationsmaterialsfocuses on low-molecular-weightgelling agents because they form nanofiberswithin supramolecular gels. It is expected thatlow molecular-weightagents willpermeate daily life in much the same way thatpolymers have.gellingskillsasanddiversepathsSupermolecular gels from organic solutionsAcetoneSilocon oilTolueneSolid fuel from biomass with highenergy densityComposite adsorbentfrom coffee wasteA nano-structure formed in a supramolecular gel by a low-molecular-weightgelling agent, the gel electrolyte of a dye-sensitive solar cell, TiO2 castproduction, and application as a cell-culture substrate+andCreating gels from numerous liquids throughout the world and investigating a wide array of applications for supramolecular gelsFiber as the key to preventing global warming: CO2 sequestration from the atmosphere andefficient utilization of CO2
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