工学部_研究紹介_2020_英語版

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OrganicHybridSolarcellswillbepreparedbyprintingtechniquesbuttheefficiencywillbecomparabletoSisolarcells(~20%)inthenearfuture.TheorganicLEDwillbeanewtypesofpaper-likelightinganddisplays.Thenano-caobonsandhybridmaterialswillbeanewclassoftransparentelectrodes.Theenvironmentalsensorswillbeusedastheultra-fast,high-sensitivehumidity(orgas)sensors,andhealthcareapplications.Manygraduatesworkinthegeneralelectricdevicesmanufacturingcompany,electricpowercompanies,Chemicalcorporation,etc.Theyhavelearnednotonlyaskilloftheelectricalandelectronicengineeringbutalsoanideaoftheglobalenvironmentandthesavingenergy,andknowledgeofvarioustypesofmaterials.Research of Organic Electronic Materialsand Devices, and related Nano-Hybrid TechnologiesOrganicmaterialsandrelatedelectronicdevicesareconsideredasanpowerfulpotentialcandidateforthenext-generation,environmentalfriendly,flexible,ambientelectronics.Wearenowinvestigatingthenewconceptsanddevicephysicsofhighlyefficientorganicsolarcells,organiclightemittingdiodes,ultra-thincapacitors,gassensors,electrodematerilasandrelatednano-hybridmaterialsandtechnologies.Professor(2015-)He received his Ph.Dfrom Tokyo Institute of Technology in 1998. He joined Shinshu Univ. from 1998. Research fields：・Organic Electronics and Related Materials・Organic and Hybrid Solar Cells・Organic Light Emitting Diodes・Environmental Friendly Sensors・Electronics Applications of Nano-Carbons and Hybrid Materials・Polymer DielecricsBottom electrodeTransparent conductive layerAbsorberBuffer layerTop electrodeSubstrateEijiItohIn the FutureAfter GraduationElectrical& Computer EngineeringWehavetostudysemiconductormaterialsanddevices.Andmanufacturalequipmenthastobeoperatedandmaintainedbyyourself.Youcanbeactiveinvariousfieldsofelectricalmanufacturer,materialsandequipment.Highperformanceelectronicdeviceswithnanometerscalehavebeeninvestigatedbytheminiaturizationandusinganovelmaterials.Andrecently,itisnecessarythatfurtheraddedvaluesshouldbeappliedtothecontinuationevolvingperformanceinordertoutilizeforinterdisciplinaryfusionsuchaslifescience.Fromthebackground,wefocus“layeredmaterials”,whichhasanomalouselectronicproperties.Wehaveresearchedthatthecreationofnovelelectronicmaterialswithanomalousbehavioranddeviceapplications.Additionally,wewillinvestigatethefusionbetweenphysicalpropertiesrelatedelectronicandelectronengineering(charge,spin,phononandphoton)fortheproposalanddemonstrationofnovelprincipledevices.Althoughphysicalpropertiesoflayeredmaterialshavebeenreceivedmuchattention,onlyfewinvestigationsexistfordeviceapplications.Wewillworktorealizeinnovativeelectronicdevicesthatbreaktheconventionalsensethroughthecreationofnovelmaterialsanddesign/developmentoffunctionaldevicehavebeeninvestigatedinourlaboratory.Researchresultshavebeendisseminatedtotheworld.Assistant ProfessorPh.D.(Engineering) Toyohashi University of technology. Research topics ･Crystal growth･Electrical and electronic materialsResearch on Anomalous Behavior MaterialsDevelopment of Novel Fundamental TechnologyNoriyuki UrakamiIn the FutureAfter GraduationElectrical& Computer EngineeringMeasurement equipment operated by students.For optical evaluation.upper:scanningelectronmicroscopyimageoflayeredmaterial,andschematicofin-planecrystalstructure.lower:cross-sectionaltransmissionelectronmicroscopyimageoflayeredmaterial,andschematicofcrystalstructure.20