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Energy Materials Research Center
Head
  • NameKim Tae Ho
  • Office042-860-7379
  • E-mailthkim@krict.re.kr
Jung Don Suk

Major research field

Development of high-efficiency/high-stability inorganic/organic hybrid core materials for solar cells and technology for improving the stability

  • Development of core materials for high-stability inorganic/organic hybrid perovskite solar cells and technology for producing devices
  • Development of technology for producing core materials for inorganic/organic hybrid heterojunction solar cells and manufacturing devices
  • Development of large-area printing process-based technology for increasing efficiency of inorganic/organic hybrid solar cells

Development of optical/electric integrated convergence device-customized perovskite solar cell modules and application of convergence device

  • Development of solar cell materials, devices, and structures for charging current and voltage matching
  • Design of new device structure and process for convergence of photoelectric devices of horizontal and vertical structures
  • Development of materials and devices having high thermal resistance and chemical resistance for fabricating integrated device
  • Development of materials and devices having improved optical, thermal, and moisture stability suitable for optical/electric integrated operation
  • Screening and development of new shared electrode materials for optical/electric integrated convergence device
  • Understanding of electrochemical behavior of perovskite materials and application to energy storage devices
  • Design and development of optical/electric convergence devices that are integrated with regard to the structure, materials, and device

Development of core materials for next-generation lithium battery and technology for increasing capacity and stability of battery

  • Development of core technology for high-capacity and high-stability next-generation secondary battery
  • Development of core technology for lithium battery for high-density energy storage based on nonmetal, oxygen group elements
  • Development of core materials for flexible battery and solid battery and application technology

Development of core materials/devices for realizing optical/electric integrated convergence devices

  • Development of large-area, high-performance organic solar cell photoactive/interlayer core materials and technology for producing devices
  • Development of low-luminance/high-luminance organic solar cell materials and devices
  • Development of materials customized to convergence devices based on organic solar cell-secondary battery and technology for producing devices

Development of ion transfer materials for energy conversion connected with recycled energy and technology for producing unit devices

  • Design and synthesis of materials for improving cation/anion transfer membrane properties for ion transfer material-based water electrolysis
  • Development of technology for manufacturing high-performance and high-durability ion transfer materials for polymer electrolyte fuel cells
  • Development of technology for manufacturing acid resistant polymer electrolyte membrane for redox flow battery
  • Development of technology for increasing gas-blocking property and stability of electrolyte membrane
  • Development of technology for stabilizing the interface of membrane electrode assembly
  • Development of technology for analyzing and improving load change in connection with recycled energy