σ2μzMaterialsChemistryMaterialsChemistry17AssociateProfessorFields of research: Ceramics, Inorganic Materials Chemistry, Clay Science, etc.Associate Professor?Ph.D. (Science), Graduate school of cience, Hokkaido University (2011).?Present career (2020-)?Current research topics : inorganic material chemistry, crystal growth, and data science.XRDSEMエンコードXRDデコードSEMTomohiro YamaguchiAfter GraduationIn the FutureAfter GraduationIn the FutureInourtime.Variousceramic,inorganicmaterialsareusedaroundus.TheYamaguchiLaboratoryisconductingresearchonthesynthesisandapplicationofvariousinorganicmaterialsincludingmicaandalumina.Atpresent,weareundertakingresearchonthesynthesisofnovelmicacrystalsandthecompositeshavingmicroporesintheinterlayerregionofmicacrystals.Wearealsoworkingontheprocessofaluminaceramicsusinganewsol-gelmethodwithaninorganicsaltsolution.Datasciencecananalyzebigdataandpredictthefuture,sothathasgreatpotentialtochangesocialstructure.Ifwecanapplydatasciencetochemicalexperiments,wecanexpecttobreakawayfromexistingresearchmethodsthatrelyonexperienceandintuitionanddevelophigh-performancematerialsinashortlaboratory,wearedevelopinghigh-performancecrystalsofenergy&environmentalmaterialsbyusingdatascience.Westudyexperimentaldatacollection,dataconversion,andmachinelearninganalysisforconstructionoffutureprediction/suggestionsystemfortheexperiments.Tetsuya YamadaMicasandaluminashavebeenstudiedandusedforresearcherstodayarefindingmanyyears,butmethodsofsynthesizingmaterialswithnewcompositionsandalsofindingnewphenomena.Inourlaboratory,studentsintheirsenioryearandgraduatestudentsareconductingtheexperimentsfortheirindividualresearchthemes.Manygraduatesfromourlaboratoryareworkingincompaniesrelatedtoceramicsandglassaswellasvariouschemicalmaterials.Theyarealsoactiveinvariousotherfields.Studentssyntheses,characterizations,andalsoapplicationofdatasciencetothematerialchemistries.DatascienceisnowprogressinginJapan.Bygettingtheaboveskills,theycanplayanactivepartinthescientificfieldforbigdatainnearfuture.itisessentialenvironmentalsciencebecanlearnchemicaltoForasustainablesociety,&develophigh-performanceissuestobesolvedinenergymaterials.Oneofmaterialforwoulddevelopmentofnewmaterials.Byconstructionofprocessinformaticssystemwithhighaccuracy,wewillhavenewtooltosupplyhigh-performancematerials,ondemandforeveryone.timecostSwellablemica crystals having a hexagonal plate-like morphology synthesized by using NaClas a flux.Alumina gels containing a small amount of organic additive lead to the formation of fine alpha-alumina particles at lower temperatures.Weuseliquid-phasecrystalgrowthmethod.Thefigureshowsvariousinorganiccrystalsgrowninourlab.Thecrystalsexhibitsurface-developed,high-qualitynatures.Usingdatascience,physicalpropertiesandimagedataarequantified(top),afuturepredictionmodeliscreated(bottomleft),andautomatedexperimentsareperformed(bottomright).Process Informatics for Energy & Environmental Crystalline MaterialsCreating Inorganic Materials: Ceramic materials chemistry
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