34ProfessorMURAKAMIYasushiProfessorMurakamijoinedtheFacultyofTextileScienceandTechnologyatShinshuUniversityin1993andtookhiscurrentpositionin2007.Hespentfiveyearsworkingattheleadresearcherfortheknowledgeclustercreationprojectstartingin2007,duringwhichtimehespearheadedadvancedcollaborationbetweenindustryandacademia.Hisareaofresearchismaterialchemistry.ProfessorMORIShogoProfessorMoritookhiscurrentpositionin2018afterworkingatNokiaJapanandasanassistantprofessorandthenanassociateprofessorintheFacultyofTextileScienceatShinshuUniversity.Hisareasofresearchincludedye-sensitizedandorganicfilmsolarcellsandsemiconductorsurfaceelectrontransfer.Theopticalmaterialsandinorganicnanofibermaterialsthatmylabhasdevelopedareuniqueintheworld,andtheyareactuallybeingused.Mycurrentfocusisenergyself-sufficiency.Ifbiomasscouldbedriedwithoutapplyingtoomuchenergy,itwouldbepossibletoutilizemarineresourcesaswell,andifelectricitycouldbegeneratedefficientlyfromheat,wewouldbeabletoconvertthelongwavelengthrangeofsunlightintoelectricity.TechnologyandandA selection of pigment solution and dye-sensitized solar cells made from them. These solutions make it possible to design effective solar cells.It is possible to make solar cells without complex equipment.We select only research that is truly necessary to solvesociety’s problemsand strive to break new ground withour work.Titanium oxide nanofiberused as a photo catalystA highly active and long-lifeplatinum/silica fuel cellcatalystDepartment ofDepartment ofManyuniversitiesandcompaniesthroughouttheworldarepursuingresearchanddevelopmentprogramswiththegoalofincreasingtheefficiencyofsolarcellsthatcanbecreatedbycoatingsurfaceswithamixtureoftitaniumoxide(usedinsunblockcreams),iodine(usedasadisinfectant),andpigments(suchasfromblueberries).Iamworkingtodevelophighlyefficientsolarcellsandexplainthemechanismofelectrontransfer.Outlook for researchAprojectdevelopsintomajorresearchwhenanewandunprecedentedvisionisproposed.Myhopeformystudentsisthattheywillgrowintoresearcherswhocanproposesuchvisions.Outlook for students after graduationInthedevelopmentofnewmaterials,failureismorecommonthansuccess.Mygoalistofostertoughandresilientresearchers.thedevelopmentofOutlook for researchDye-sensitizedsolarcellsandorganic-filmsolarcellsareexpectedtoserveaslow-cost,next-generationsolarcell.Further,byexplainingthemechanismofelectrontransfer,Ibelieveitwillbepossibletodesignhigh-performancedevicesusinglow-costmaterials.Outlook for students after graduationGraduates are employed by material, device, and electrical manufacturers.Chemistry and MaterialsChemistry and MaterialsBreaking new ground in materials, processes, and systems with the ultimate goal of energy self sufficiencyMixing familiar materials to make coatingsfor high-efficiency solar cells
元のページ ../index.html#36