Development of Functional Materials inspired by biomineralizationサイズW3.6cm×H4.35cm配置位置横11cm、縦22.2cm44Department of Chemistry and MaterialsOutlookforresearchOutlook for students after graduationBiominerals(teeth,bones,seashells,andsoon)oflivingthingshaveveryexcellentfunctionsdespitebeingconstructedinamildenvironmentatnormaltemperatureandnormalpressure.Therefore,learningandimitatingthebiomineralformationprocess(biomineralization)areexpectedtoenablethecreationofmaterialswithsuperiorfunctionslikebiomineralbyaprocesswithasmallenvironmentalburden.Inadditiontoresearchonbiomineralization,laboratoriesarealsoresearchingsoftmaterials,aimingatmaterialstobebio‐inspiredfromlivingorganisms.Thedevelopmentofscienceandtechnologybasedontheunderstandingofthestructurecontroltechnologyofmaterialsthatfollowbiologicalsystemsisthenextgenerationofenvironmentallyconsciousmanufacturingprocessesthatexceedsthebiomineralandbiologicaltissueswhichareexcellentfunctionalmaterialsinbiologicalsystems,anditisconsideredtocontributetotheformationofasafeandsecuresocietyofthenextgenerationasa“excellentfunctionalmaterials”.Throughresearchactivities,inadditionto“theoreticalthinking”forscience,wehave“presentationskills”toaccuratelyconveyideastopeople,wearedoing“educationtonurturepeople”tounderstandandpolishtheirownphilosophy.AftergraduationIwouldliketoaimforengineersandresearchersactiveintheworld.AssistantProfessorKazukiMuraiDr.MuraireceivedPh.DinEngineeringfromNagoyaInstituteofTechnology(2015).HeworkedasaJSPSresearchfellowshipforyoungscientist(DC‐2)andthenasanassistantprofessorinTokyoUniversityofScience(2015‐2018),beforestartinghiscurrentpositionatShinshuUniversityin2018.Soft matter (hydrogel) in which 95% of the mass consists of H2ONanofiberstructureofthehybridmaterialscomposedoforganicandinorganicmaterials.Syntheticlandscapeofpeptideswhicharemodelmoleculesofproteins
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