nONH3COOCUni-axal DrawngiiAAmmiinnooaacciidd--bbaasseeddppoollyymmeerrssOOrrggaanniicc--iinnoorrggaanniicc hhyybbrriiddssIIoonn--ccoonndduuccttiivvee ppoollyymmeerrssOOppttooeelleeccttrroonniicc ppoollyymmeerrss1210 nm-11.0 nm-10.2 nm-1h-PE: 2MWAXSSAXSh-PE: 300Kh-PE: 58KNanofibersSelf-healing materialspolymerizationAdvanced materialsPrecise Design of polymeric nanomaterials NanoparticlesMicrofabrication of optical materialsYamagata University Graduate School of Organic Materials ScienceE-mail :h.mori@yz.yamagata-u.ac.jp Research InterestTel :+81-238-26-3765Polymer Synthesis and NanomaterialsFax:+81-238-26-3749E-mail ・ h.mori@yz.yamagata-u.ac.jpTel ・ +81-238-26-3765HP:http://mori-lab.yz.yamagata-u.ac.jp/english/english.htmlFax ・ +81-238-26-3749HP・http://mori-lab.yz.yamagata-u.ac.jp/english/english.htmlContent:ContentOurgroupcarriesoutthepreciseanalysisof“hierarchic”polymerstructurewithwidespatialandtimescaletocontrol/improvethe Our group carries out the precise analysis of “hierarchic” polymerproperties.Weusedsynchrotronx-rayscattering,neutronpolymer structure with wide spatial and time scale to scattering,FT-IRcontrol/improve the polymer properties. We used techniques,viscoelasticmeasurements.Thepreciseanalysisofsynchrotron x-ray scattering, neutron scattering, optical/polymerstructurecouldmakepolymerpropertiescontrollingfromelectrical micrograph, DSC and/or FT-IR techniques, nanometerEspecially,weperformedon“in-situ”viscoelastic measurements. The precise analysis of polymer scatteringmeasurementsinordertothepolymerstructuralformationstructure could make polymer properties controlling from process,andthenwecouldimprovehigherperformance,propertyandnanometer to micron. Especially, we performed on “in-situ” strengtheningofpolymers.scattering measurements in order to the polymer structural formation process, and then we could improve higher Appeal Points:We are actively engaged in industry-academic research projects performance, property and strengthening of polymers.involving our master and undergraduate students’ research. Our Special objectivesstrength lies in the analysis of not only polymers, but also various materials such as food science and cellulose. We are actively engaged in industry-academic research projects involving our master and undergraduate students’ research. Our strength lies in the analysis of not only polymers, but also various materials such as food science Yamagata University,Graduate School of Organic Materials Scienceand cellulose.Research Interest:Polymer Physics, Polymer Properties, Precise AnalysisYamagata University Graduate School of Organic Materials ScienceE-mail :gmatsuba@yz.yamagata-u.ac.jpResearch InterestPolymer Physics, Polymer Properties, Precise AnalysisTel&Fax:+81-0238-26-3053E-mail ・ gmatsuba@yz.yamagata-u.ac.jpHP :http://matsuba-lab.yz.yamagata-u.ac.jp/Tel & Fax ・ +81-0238-26-3053Twitter, Instagram: gmatsuba, Facebook:matsubalabHP・http://matsuba-lab.yz.yamagata-u.ac.jp/Twitter,・Instagram: gmatsubaFacebook : matsubalaboptical/electricalmicrograph,DSCand/ortomicron.Control of Polymer CrystalsOriented structure with polarized optical micrographsnano-metered structure analysisCrystal structural analysis with in-situ X-ray scatteringContentContent:Recentdevelopmentincontrolledradicalpolymerizationmethods Recent development in controlled radical polymerization hasprovidedmethodologiestosynthesizewell-definedfunctionalmethods has provided methodologies to synthesize well-defined polymersbyaveryfacileandsimpleapproach.Ourresearchfunctional polymers by a very facile and simple approach. Our interestsarefocusedonthedesignandsynthesisofnanostructuredresearch interests are focused on the design and synthesis of polymericmaterialsandadvancedfunctionalmaterials.Wemainlynanostructured polymeric materials and advanced functional employedreversibleaddition-fragmentationchaintransfer(RAFT)materials. We mainly employed reversible addition-polymerization,whichisthemostversatilecontrolledradicalfragmentation chain transfer (RAFT) polymerization, which is polymerization,andself-assemblysystem.Representativeresearchthe most versatile controlled radical polymerization, and self-topicsarethedevelopmentsofmicrofabricationtechniqueofhigh-assembly system. Representative research topics are the refractive-indexpolymersbynanoimprinting,aminoacid-baseddevelopments of microfabrication technique of high-refractive-polymershavingspecificinteractionswithDNAandproteins,ion-index polymers by nanoimprinting, amino acid-based polymers conductivepolymericnanomaterials,andself-healingorganic-having specific interactions with DNA and proteins, ion-inorganichybridsusingsilsesquioxanenanoparticles.conductive polymeric nanomaterials, and self-healing organic-Appealingpoint:inorganic hybrids using silsesquioxane nanoparticles.Ourcurrentactivitiesarealsofocusedontheexplorationofnext-generationpolymericmaterials,whichwillcontributetotheSpecial objectivesinnovationintheenvironmental,bio-related,andenergysectors,by Our current activities are also focused on the exploration of modernpolymerchemistry.next-generation polymeric materials, which will contribute to the innovation in the environmental, bio-related, and energy Yamagata University Graduate School of Organic Materials Sciencesectors, by modern polymer chemistry.Research Interest :Polymer Synthesis and NanomaterialsImprovement of Polymers’ Properties with Precise Structure AnalysisImprovement of Polymers’ Properties with Precise Structure AnalysisProfessor Go MatsubaAdvanced Functional Materials by Precise Polymerization and Self-assemblyAdvanced Functional Materials by Precise Polymerization and Self-assemblyProfessor Hideharu MoriProfessor HideharuMoriProfessor, Go Matsuba
元のページ ../index.html#14