Ω/ZΩ/ Z1081E+081071E+071091E+091081E+081E+091091E+071070UV-AUV-BUV-AUV-B260102030405060708090Time /secUV-BsensorUV102030405060708090Time /secUV-AsensorUVMaterial design based on crystal structureContent:Manypeoplehavesomediseasesduetometabolicdysfunction,bacterialinfections,orcancer.IfyouareunfortunateContentenoughtodeveloporaldiseases,bonediseasessuchasarthritisand Many people have some diseases due to metabolic dysfunction, osteoporosis,orsolidormetastaticcancer,surgicalThiscanresultinbacterial infections, or cancer. If you are unfortunate enough to multipleorganfailureduetoinfectionanddamagetotheorgansdevelop oral diseases, bone diseases such as arthritis and suchasteeth,skin,andbones.Itcanbeaccompaniedbytissueloss.osteoporosis, or solid or metastatic cancer, surgical This can result Researchinthefieldofengineeringisbecomingmoreandmorein multiple organ failure due to infection and damage to the organs such as teeth, skin, and bones. It can be accompanied by tissue importanteveryyearforsuchdiseases.Recently,variousartificialloss. Research in the field of engineering is becoming more and materials(antimicrobialmaterials,medicalmaterials,implantmore important every year for such diseases. Recently, various materials),teeth,andbonesusingmesenchymalcellshavebeenartificial materials (antimicrobial materials, medical materials, implant developed.Thegoalsofourlaboratoryaretoresearchthemostmaterials), teeth, and bones using mesenchymal cells have been suitableandnovelartificialmaterialsthatcanbeappliedtopatientsdeveloped. The goals of our laboratory are to research the most andtodevelopnewdentalanddentalprosthesesusingmesenchymalsuitable and novel artificial materials that can be applied to patients and to develop new dental and dental prostheses using cells.Researchonboneandskinreconstructionandregeneration,mesenchymal cells. Research on bone and skin reconstruction and reductionofbacterialinfections,anddevelopmentofminimallyregeneration, reduction of bacterial infections, and development of invasiveanti-cancerdrugswillhelptopreventearlydevelopmentofminimally invasive anti-cancer drugs will help to prevent early healthyanddisease-causingdiseases.development of healthy and disease-causing diseases. Appealingpoint:OurmissionistocontributetoclinicalmedicinetoSpecial objectivesrestorelife.Specifically,wearedevelopingbio-medicalmaterials(ceramics,metal,carbon,andgel,etc.).Our mission is to contribute to clinical medicine to restore life. Specifically, we are developing bio-medical materials (ceramics, Yamagata UniversityGraduate School of Science and Engineering metal, carbon, and gel, etc.).Research Interest:Biomaterials, Biology,yamamoto_ofc@yz.yamagata-u.ac.jp(Secretary)Regenerative medicine Yamagata University Graduate School of Science and Engineering E-mail :yamamoto@yz.yamagata-u-ac-jp Research InterestBiomaterials, Biology, Regenerative medicineTel & Fax:+81-238-26-3366E-mail ・ yamamoto@yz.yamagata-u-ac-jp yamamoto_ofc@yz.yamagata-u.ac.jp(Secretary)HP :http://ymlab.yz.yamagata-u.ac.jp/Tel & Fax ・ +81-238-26-3366HP・http://ymlab.yz.yamagata-u.ac.jp/ContentContent:The global economy has developed recently, while social problems The global economy has developed recently, while social related to resource depletion, environmental pollution, etc. have also problems related to resource depletion, environmental pollution, grown on a worldwide scale. Intelligent materials based on abundant, etc. have also grown on a worldwide scale. Intelligent materials ubiquitous elements should become a key to realize a sustainably based on abundant, ubiquitous elements should become a key to developing society.realize a sustainably developing society.We are interested in “intelligent materials” composed of non-rare We are interested in “intelligent materials” composed of non-elements on the fourth row and above in the periodic table. Inorganic oxide materials in, especially, an opt-electronic field are mainly rare elements on the fourth row and above in the periodic table. targeted. Examples of the research themes are “full-color-phosphors Inorganic oxide materials in, especially, an opt-electronic field are based on 3d transition metals”, “fast-response UV sensors based on mainly targeted. Examples of the research themes are “full-color-wide-band-gap oxide semiconductors”, and “super ionic conductors phosphors based on 3d transition metals”,“fast-response UV for an all-solid-state battery”.sensors based on wide-band-gap oxide semiconductors”, and “super ionic conductors for an all-solid-state battery”.Appealing point:Special objectivesThorough characterization of the materials in the view point of crystal structures is an appealing point of our approach to reveal the Thorough characterization of the materials in the view point of mechanism of the function of a material. crystal structures is an appealing point of our approach to reveal the mechanism of the function of a material. Yamagata University Graduate School of Science and Engineering Research Interest :Inorganic materialsYamagata University Graduate School of Science and EngineeringE-mail :ymatsush@yz.yamagata-u.ac.jpResearch InterestTel :+81-238-26-3165Inorganic materialsFax:+81-238-26-3165E-mail ・ ymatsush@yz.yamagata-u.ac.jpTel ・ +81-238-26-3165HP :http://mat-lab.yz.yamagata-u.ac.jpFax ・ +81-238-26-3165HP・http://mat-lab.yz.yamagata-u.ac.jp○Full-color-phosphors based on 3d transition metals○Fast-response UV sensors based on wide-band-gap oxide semiconductorsIntelligent Materials for a Sustainably Developing SocietyIntelligent Materials for a Sustainably Developing SocietyProfessor Yuta MatsushimaProfessorYuta MATSUSHIMARegeneration of biological functions and tissues based on materials Regeneration of biological functions and tissues based on materials chemistry and basic medicinechemistry and basic medicineProfessor Osamu YamamotoProfessor Osamu Yamamoto
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