Electrochemical catalytic reactions occurs on the surface of nano-sized PtCarbon is used as an electroconductingsupport which conducts electrons2 nm Pt nano particleCarbon Support50 nm50 nmTop: Electrochemistry equipmentBottom: English seminarheld every morning at 8:3029ProfessorSATO TakaakiProfessorSUGIMOTO WataruOutlook for researchOutlook for students after graduationOutlook for researchOutlook for students after graduationfields,Department ofChemistry and MaterialsWe are working on a wide range of soft condensed mattersinvolving pure liquids, solutions, colloids, polymers, gels,and bio-macromolecules. Our special interests are in waterand biomolecules because almost all life phenomena occurin an aqueous environment. With the help of spectroscopicand scattering techniques, we are seeking to understandthe microscopic mechanisms supporting life phenomena.We also aim to contribute to the developments ofpharmaceuticals, cosmetics, and detergents.Department ofChemistry and MaterialsProfessor Sato graduated fromAfterWasedaworking at Waseda Universityas a JSPS young research fellow(DC2 and PD), as a seniorassistant professor, and as anassociate professor at ShinshuUniversity, he took his currentposition in 2019.Dr. Eng. (1999, Waseda Univ.); Assistant Professor (1999 Univ.); Shinshu Associate Professor (2007, Shinshu Univ.); Professor (2013, Shinshu Univ.)University.High-resolution small-angle X-ray scattering reveals the microscopic behaviorof proteins to help us understand their biological functions.Dielectric spectroscopy clarifies the cooperative rearrangement dynamics ofH-bond li quids. My lab is focusing on microscopic frictional forces acting on the reorientational motion of water molecules.A fuel-cell catalyst with Pt nanoparticles supported on carbon. Fuel cells are the key energy devices for the H2 economy since they generate clean energy.A nanosheet is the ultimatenanocrystal,just a fewnanometers in thickness.Conducting nanosheets areused to create ultrafastcharge storage.A recent social situation may emphasize theimportance of practical research that can beinstantly applied in society. Even so, we pursuecondensedresearch on softfundamentalmatters to gain deeper insights into structureand dynamics of diverse aqueous systems.Our research topics and techniques producestudents useful to a wide range of industries,such as cosmetic, detergent, and food. Moreimportantly, our target is to develop humanresources having a high level of problem-solvingabilities, penetrating insights, and internationalcommunication skills.Our core technology is based on innovative nano-materials and advanced methods of synthesis. Ourspecialty is NANOSHEETS, which are materials thathave a thickness of only 1 nm. Conducting state-of-the-art research in fundamental science and practicalapplications allows students to acquire not only skills inmaterials and chemical engineering, but also additionalexpertise so that they will be able to serve asresearchers with a global mind.Graduates have pursued careers in a vast varietyincluding automotive, materials andofchemical industries.Clean and efficient electrochemical energy conversion andstorage: The fight against environmental and energy issues. Ourresearch is focused on using nano-materials (NANOSHEETS inparticular) for supercapacitors and fuel cells, which are importantdevices for realizing a sustainable society. The electrode materialswe synthesize have tremendously large surface area and highactivity, thus providing a technological basis for clean and efficientenergy utilization.An energy device that can fully charge in 3 minutes and can beimplanted in your body? Yes, this may be possible with yourideas! Join our team in realizing such a dream.サイズW7.5cm×H4.35cm配置位置横11cm、縦2.5cmSmall is BIG: Developing state-of-the-art nano-materials for use in fuel cells and supercapacitorsInterdisciplinary Chemical Physics exploring the microscopic mechanisms of life phenomena
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