MaterialsChemistryMaterialsChemistry8ProfessorGraduated from Shinshu University, PhD (1994, Shinshu University)2005-Professor of Faculty of Engineering, Shinshu University Major fields:Biological Chemistry (Enzymology, Carbohydrate Chemistry) ProfessorAt Arai Laboratory since 2011, He was a technical researcher in Nagano Prefecture, etcbefore he became a professor. Main disciplines: electrochemistry, analytical chemistry. Current research: lead-free solder plating, carbon-nanotube composite plating, and other plating technologies.In the FutureAfter GraduationisfocusedLaboratorylithium-ionbatteries,Organismsalwaysproducemanyproteinssuchasenzymeswhichdesignedbasedongenes.Enzymesworkascatalystsformostreactionsoccurringincellsoforganisms.Thevelocityofcatalyticreactionsbyenzymesareincrediblyrapidunderthecommontemperatureandpressure.Wecanapplythiseco-friendlyprocessforindustries,asasustainabledevelopmentrequiresgreen.OurLaboratoryisinterestedinthefundamentalissuessuchasproperties,structuresandfunctionsofenzymestoproducematerialsandmoleculesbyasustainableprocess.Yoshihiko AmanoAraithroughelectrochemicalmethods,especiallyplating.Platingtechnologyiskeytoproductionofpersonalcomputers,cellphones,smartphones,andmanyotherelectronicandsemiconductordevices,andwillbeanimportantproductionprocessfornanomaterials,batterymaterials,andotheradvancedmaterials.Thelaboratoryperformsplatingwithcarbonnanotubes(CNTs)toproducemetal/CNTcompositefilmsandmetalnanoparticlemodifiedCNTs,andinvestigatestheirperformanceasmaterialsforflat-paneldisplays,highabrasionresistanceandthermoconductivity,andotheradvancedapplications.Susumu AraiOurLabfocusesonthecarbohydrateswhicharesynthesizedbyphotosynthesisusingcarbondioxide.Celluloseisoneofinmostabiosphere.largeamountofenergyinchemicallinkage.Weshouldusetheenergytoproducebiofuelsandmaterials.Chemistrycontributestoeveryfieldthatmanufacturingcompaniesworkon.Theyarechemical,electrical,foodcompanies.StudentsthathavegraduatedareactivelyworkingeverywhereinJapan.AraiLaboratoryisexploringanewworldofplatingtechnologyformicro-andnano-sizemetalprocessingofnewnanometalandmetal-compositematerials.Ourlabiscommittedtothedevelopmentofnewfunctionalmaterialsfortorenewableenergysystems,low-powerandhigh-definitiondisplays,low-wearcoatings,high-performanceheatdissipation,andotheradvancedapplications,andtojointresearchwithbusinessandindustryfortheirimplementation.Platingtechnologyishighlyprizedbothbygeneralelectronicscompaniesandcompaniesspecializedinplating.Graduatesaccordinglyenjoyawealthofemploymentopportunitiesincompaniesproducingconsumerdevices,appliances,andcomponentsaswellaschemicalmanufacturers.abundantorganicsubstancesBiomassstoresrechargeablebatteryelectrodesvitalfunctionalmaterialsonfuelcells,In the FutureAfter GraduationMushroomfungus,Irpexlacteusisolatedin1930sbyProf.Nisizawa.Thismicroorganismhasahighabilityfordegradationofwoodybiomass.Continuousflow-typehydrothermalreactorwedesigned:thisisapowerfultoolforprocessingorganicsubstancesfromplantbiomass.Electronmicrographsproducedbyelectroplating.ofPalladium-catalyst nanoparticleformed on carbon nanotubesurface by electrolessplating.displaymaterial2.25 ? Pd(111)Pd (111)Nanomaterials, battery materials, and other advanced materialsdeveloping5 nmApplicationofBiologicalFunctionforIndustrialFields as Green ChemistryDevelopment of Next-Generation Functional Materials Through Plating
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