Excitingpotentialapplicationsmadepossiblebyexaminationatthemolecularlevelincludedevelopmentofmedicationsthatlearnfromnaturalsubstances,developmentofmedicinaltreatmentsforpreviouslyuntreatablediseases,treatmentsforcropdiseases,captureofharmfulorganismsusingpheromones,andcontrolofvaluableorganosmsthroughtheuseofpheromones.Mostgraduatesareemployedbypharmaceuticalandchemicalmanufacturers.Theyareactiveinawiderangeofresearchdomainsthroughoutsociety.Mylabhasbeensuccessfulinsynthesizingseveralnaturalsubstanceswithantiviralandanti‐HIVpropertiesaswellasbloodplateletcoagulation‐inhibitingproperties.OOOMeOMeOOOOOMeOMeOOMeOUtilizing?organic?chemistry?to?solve?biological?phenomena:?Searching?for?biologically?active?substances?and?developing?new?reactions?and?medicines34Department?of?Chemistry?and?MaterialsDepartment?of?Chemistry?and?MaterialsOutlook?for?students?after?graduationOutlookforresearchIuseorganicchemistryasasurgeon'sknifetodelveintolifeandbiologicalphenomena.Forinstance,mylabsuccessfullysynthesizedanaturalsubstancewithantiviralandbloodplateletcoagulation‐inhibitingproperties(thatis,wesynthesizedasubstancethatisidenticaltoanaturalsubstanceinaflask).Wehavealsosynthesizedbiologicallyactivesubstancessuchasantibacterialandbactericidalsubstancesandpheromones.ProfessorYoshinoriNishiiProfessorNishiitookhiscurrentpositionin2018afterservingasadoctoralresearcherattheUniversityofPittsburghandparticipatingintheSpecialPostdoctorateResearchProgramatRIKENandworkingasanassistantprofessorandasanassociateprofessoratShinshuUniversity.Hisprincipalareasofresearchincludeorganicchemistryfornaturalsubstances,organicsyntheticchemistry,andorganicreactions.WeareconductingR&Dworktocreateabactericidalsubstancetohelpfarmersdealwithadiseasethataffectsthetrunksofpearandappletrees.Wearealsoinvolvedinresearchtouncoverfishpheromonesandexplaintheirmolecularstructureandtherelationshipbetweenstructureandactivity.IamresearchingtechnologiesforseparatingandcollectingCO2fromtheatmosphereoreffluentgases.Specifically,byapplyinganabsorbingliquidthatreactswithCO2totheinsideofacylindricalhollowfibermembrane,IhopetoabsorbonlytheCO2fromtheeffluentgasontheoutside.Ifthistechnologycanbedeveloped,IexpectittolowerthecostofCO2separationandcollection.InadditiontoCO2separationandcollectiontechnology,myresearchhasramificationsfortree‐plantingindryareasaswellasefficientconversionofwoodbiomasstosolidfuelandusefuladsorbents.IwouldliketocontributetosolvingenvironmentalandenergyproblemswithwellutilizingCO2,whichisavaluablecarbonsourceandwehumanbeingsrelyon,inthecarboncirculationsystem.Graduatespursuediversepathstoemploymentatnotonlychemicalplantmanufacturersandenvironmentalengineeringcompaniesbutalsochemicalsandfoodmanufacturersandsoon.ItisimportanttodesignthetotalsystemwheretheindividualtechnologiescanbecombinedsuccessfullyforefficientCO2utilizationandpreventionofglobalwarming.Membranecontactorusing?finehollowfiberswith?nano‐scaleporesFiber?as?the?key?to?preventing?global?warming:?CO2sequestrationfromtheatmosphereandefficientutilizationofCO2Solidfuelfrombiomass?withhighenergydensityCompositeadsorbentfromcoffeewasteDepartment?of?Chemistry?and?MaterialsOutlookforresearchOutlook?for?students?after?graduationProfessorNobuhideTakahashiAfterobtaininghisdoctorateattheUniversityofTokyo,ProfessorTakahashiworkedasanassistantprofessorandassociateprofessorintheFacultyofTextileScienceandTechnologyatShinshuUniversitybeforetakinghiscurrentpositionin2014.Hisareasofspecializationarechemicalengineeringandenvironmentalengineering,andhebaseshisresearchontheconceptthatCO2+water+soil+sunlight+knowledge+technologyleadtosustainablesociety.
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