9F8O7N6CONNRRRRC6H5COCl, i -Pr2EtN182He1415161710Ne14Si15P16S17Cl18Ar33As34Se35Br36Kr32サイズW7.5cm×H4.35cm配置位置横11cm、縦2.5cmCatalystOHOHAn asymmetric esterification solution designed based on atomicprinciples, and associated reactions. Esterification proceeds bydifferentiating between the two symmetrical hydroxyls in the diol.Outlook for researchOutlook for students after graduationGraduates have gone to work for manufacturesofandhigh-polymerlow-andpharmaceuticals.Outlook for researchA project develops into major research whena new and unprecedented vision is proposed.My hope for my students is that they willgrow into researchers who can propose suchvisions.Outlook for students after graduationIn the development of new materials, failureis more common than success. My goal is tofostertough andresilient researchers.the development ofProfessorFUJIMOTO TetsuyaProfessorMURAKAMI YasushiDepartment ofChemistry and MaterialsDepartment ofChemistry and MaterialsFujimotoAssociate ProfessorfirstShinshuaUniversity Graduate School ofEngineeringcoursespecializing in the study offunctional polymers. His area ofresearch is organic syntheticchemistry, and his work focuseson new methods for organicsynthesis and the developmentof new catalysts.completedresearchProfessor Murakami joined the Facultyof Textile Science and Technology atShinshu University in 1993 and took hiscurrent position in 2007. He spent fiveyears working at the lead researcher forthe knowledge cluster creation projectstarting in 2007, during which time hespearheaded advanced collaborationbetween industry and academia. Hisarea of research is material chemistry.A view of the lab. Numerous reagents, solvents, and glass containers areused to synthesize the target organic compounds, yielding substanceswhose structure can be confirmed using NMR.We select only research that is truly necessary to solvesociety’s problems and strive to break new ground withour work.Titanium oxide nanofiberused as a photo catalystExpected applications include the functionalizationof glycerin, a type of biomass, using theasymmetric esterification reaction and the easysupply of optically active alcohol and amine, inaddition to the carbon-carbon bond-formingreaction that is important for organic synthesis.A highly active and long-lifeplatinum/silica fuel cellcatalystOrganic molecules sometimes come in a chiral form with anenantiotopic relationship.researchfocused primarily on the development of an asymmetricalcatalystto selectively synthesize one side of a chiralmolecule. My goal in doing so is to create new catalysts thatare highly selective and highly activated, that do not userare metals, and that can be synthesized simply.The optical materials and inorganic nanofiber materials thatmy lab has developed are unique in the world, and they arefocus is energy self-actually being used. My currentsufficiency. If biomass could be dried without applying toomuch energy,it would be possible to utilize marineresources as well, and if electricity could be generatedefficiently from heat, we would be able to convert the longwavelength range of sunlight into electricity.productsI am carrying outOCOC6H5OHUp to 94 % eePh2PCatalystDeveloping novel organocatalysts for highly stereoselective synthesis of organic moleculesBreaking new ground in materials, processes, and systems with the ultimate goal of energy self sufficiency
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