aandOOOOOOOOProfessorNISHII YoshinoriProfessorHATTORI YoshiyukiOutlook for researchExciting potential applications made possible byexamination atincludethe moleculardevelopment of medications that learn fromnatural substances, development of medicinaltreatments for previously untreatable diseases,treatments for crop diseases, capture of harmfulorganisms using pheromones, and control ofvaluableofpheromones.organosmsthroughOutlook for students after graduationMost graduates are employed by pharmaceuticaland chemical manufacturers. They are active in awide range ofresearch domains throughoutsociety.Outlook for researchPotential applications for this research are growingin number and include drive power sources forbio-imagingelectricmaterials, and cleaning gases for semiconductorsthat are environmentally friendly and energy-efficient.next-generationvehicles,Outlook for students after graduationseekemploymentUtilizing organic chemistry to solve biological phenomena: Searching for biologically active substances and developing new reactions and medicinesDepartment ofChemistry and Materialscoagulation-inhibitingDepartment ofChemistry and Materialsin energy-storage devicesProfessor Nishiitook his currentposition in 2018 after serving as adoctoral researcher at the Universityof Pittsburgh and participating in theSpecialResearchPostdoctorateProgram at RIKEN and working as anasassistantanassociateShinshuUniversity. His principal areas ofresearch include organic chemistryorganicforsyntheticchemistry, and organicreactions.Professor Hattoritook his currentposition after working as a researcherinvolvedamongindustry, academia, and governmentin the Chiba University Faculty ofassistantScience,professor,associateasprofessor in the Faculty of TextileScience and Technology at ShinshuUniversity. He is currently engaged inbasic research in carbon science andinorganic fluorine chemistry, includingresearch on theapplications ofnanocarbon as an electrode materialand as an adsorption material.We are conducting R&D work tocreate a bactericidal substanceto help farmers deal with adisease that affects the trunksof pear and apple trees.My lab succeeded in synthesizing fluorescent nanocarbon, whose applications include use in imaging materials.We also succeeded in synthesizing porous carbon nano-sheets, whose potential uses include capacitors and electrodes in high-output secondary lithium batteries.We are also involved in researchto uncover fish pheromones andexplain their molecular structureand the relationship betweenstructure and activity.levelusethechemicalGraduatescompanies, particularly companiesinvolved incarbon materials, electrochemicals, and fluorinechemistry, or as teachers or public officials.atprofessorprofessorandatsubstances,naturalincollaborationassenioranI use organic chemistry as a surgeon's knife to delve into life andbiological phenomena. Forinstance, my lab successfullysynthesized a natural substance with antiviral and bloodplateletis, wesynthesized a substance that is identical to a natural substancein a flask). We have also synthesized biologically activesubstances such as antibacterial and bactericidal substancesand pheromones.I am carrying out research to synthesize fluorescent nanocarbonand to use nanocarbon (carbon nanotubes, graphene, carbon(primary andnano-horns, etc.)secondary lithium batteries and super capacitors). My researchcovers a wide range of topics, from fundamentals to applications.(that31propertiesOMeOMeMy lab has been successful in synthesizing several naturalsubstances with antiviral and anti-HIV properties as well asblood platelet coagulation-inhibiting properties.OMeOMeMeODeveloping new luminescent materials and energy-storing materials using nanocarbon
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