13Content: Large scale introduction of clean and renewable solar Large scale introduction of clean and renewable solar electricity to electricity to human life is inevitable as a solution to the human life is inevitable as a solution to the current environmental / current environmental/energy problems. Increasing attention is paid to organic solar cells since they can be processed energy problems. Increasing attention is paid to organic solar cells with low energy from abundant materials. They also bear since they can be processed with low energy from abundant advantages in installation and application because of their materials. They also bear advantages in installation and application unique features such as light weight, flexibility, colorfulness because of their unique features such as light weight, flexibility, and see-through appearance.colorfulness and see-through appearance. We discovered a method to electrochemically self-We discovered a method to electrochemically self-assemble assemble inorganic/organic hybrid nanostructured thin films inorganic / organic hybrid nanostructured thin films and study their and study their applications to novel photovoltaic systems. applications to novel photovoltaic systems. Starting from the Starting from the engineering of electrochemical engineering of electrochemical apparatuses, our research interests apparatuses, our research interests stem diversely towards stem diversely towards design and synthesis of novel hybrid design and synthesis of novel hybrid nanostructures, nanostructures, elucidation of self-assembly mechanism, analysis of elucidation of self-assembly mechanism, analysis of the the structure and new functions, fabrication, testing and development structure and new functions, fabrication, testing and of devices for commercialization together with industrial partners.development of devices for commercialization together with Other applications such as artificial photosynthetic system for solar industrial partners.fuels, energy conversion and storate, electrochromic displays and Other applications such as artificial photosynthetic system electrochemical sensors are also within our research interests.for solar fuels, energy conversion and storate, electrochromic displays and electrochemical sensors are also within our research interests.Yamagata UniversityGraduate School of Science and Engineering Research Interest :Electrochemistry, Solar CellsYamagata University Graduate School of Science and Engineering E-mail :yoshidat@yz.yamagata-u.ac.jpResearch InterestTel :+81-238-26-3587Electrochemistry, Solar CellsFax:+81-238-26-3587E-mail ・ yoshidat@yz.yamagata-u.ac.jpTel ・ +81-238-26-3587HP :http://yoshidalab.yz.yamagata-u.ac.jp/index-English.htmlFax ・ +81-238-26-3587HP・http://yoshidalab.yz.yamagata-u.ac.jp/index-English.htmlContentContentContent:In my opinion, models are ways to understand what are materials, In my opinion, models are ways to understand what are phenomena, relations, and so on. It is one of models to consider that materials, phenomena, relations, and so on. It is one of materials are made of molecules. This is a basic standpoint of my models to consider that materials are made of molecules. research for science and engineering of materials. Everything is tried This is a basic standpoint of my research for science and to connect to motion and structure of molecules in my brain. What engineering of materials. Everything is tried to connect to types molecules are important for development of novel liquid motion and structure of molecules in my brain. What types crystal material ? How can we express starch molecules in the molecules are important for development of novel liquid process of cooking of rice ? These are examples of my curiosities in crystal material ? How can we express starch molecules in the world. the process of cooking of rice ? These are examples of my Figures in the left-hand side of this document show examples of curiosities in the world. models. The upper half is an atomistic model of a system of cellulose Figures in the left-hand side of this document show of water. The lower half is a model to consider how material is examples of models. The upper half is an atomistic model of processed in a mill machine.a system of cellulose of water. The lower half is a model to consider how material is processed in a mill machine.Appealing point:Special objectives-My imagination is not bound to my own field.-I am very interested in new findings and originalities.- My imagination is not bound to my own field.-I will generate unique ideas.- I am very interested in new findings and originalities.- I will generate unique ideas.Yamagata UniversityGraduate School of Science and Engineering Research Interest :modeling of polymer materialsYamagata University Graduate School of Science and Engineering Research InterestE-mail :koda@yz.yamagata-u.ac.jpmodeling of polymer materiaTel :+81-238-26-3066E-mail ・ koda@yz.yamagata-u.ac.jpFax:+81-238-26-3066Tel ・ +81-238-26-3066Fax ・ +81-238-26-3066HP・http://yudb.kj.yamagata-u.ac.jp/html/196_ja.htmlHP :http://yudb.kj.yamagata-u.ac.jp/html/196_ja.htmlConstructing Models of Polymer MaterialsExample of atomistic modelwaterwaterModel of crashing materials in mortarsAssociate Professor Tomonori KodaElectrodeposition of Hybrid Thin Films for Renewable EnergyConstructing Models of Polymer MaterialsAssociate Professor Tomonori KodacelluloseElectrodepositionofHybridThinFilmsforRenewableEnergyProfessor Tsukasa YoshidaProfessor Tsukasa Yoshida
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