사진

  • ResearcherID
  • ResearchGate
  • Scopus

Kim, Youngsik (김영식)

Department
School of Energy and Chemical Engineering(에너지화학공학과)
Website
http://www.ykimresearch.com/
Lab
YK Research (YK 그룹)
Research Keywords
해수전지, 리튬이온전지, 전고체전지, 리튬추출, 담수화, 살균, 탄소 양극, 고체전해질, 액체전해질, 소듐이온전지, 나시콘, LLZO, Ionic conducting ceramic electrolyte membranes, Seawater battery, Li ion battery, Na ion battery, Solid state battery, Li harvest, Desalination, Sterilization, Carbon cathode, Solid electrolyte, Liquid electrolyte, LATP, NASICON
Research Interests
YK Group is researching an energy storage system that helps to utilize it efficiently according to the development of a renewable energy system. The ultimate goal is to develop an energy conversion / storage system that is competitively priced, highly efficient, long-life, environmentally friendly and can be commercially available. To achieve this goal, new materials are created, and even existing materials are applied to new systems such as new processes and manufacturing methods. The most important thing in this process is not just to develop new materials for research, but to do research that actually helps in this area. The professor's research philosophy coincides with the vision of the Ulsan Institute of Science and Technology, “A global leader in science and technology that contributes to fostering the future of creative science and technology as a global leader in pioneering the future”. In fact, compared to other laboratories, our laboratories have many patent applications and registrations.
This table browses all dspace content
Issue DateTitleAuthor(s)TypeViewAltmetrics
2021-06Investigating the influence of catholyte salinity on seawater battery desalinationPark, Sanghun; Ligaray, Mayzonee; Kim, Youngsik, et alARTICLE13 Investigating the influence of catholyte salinity on seawater battery desalination
2021-05Using redox electrolytes to extend the charge storage capacity in an aqueous hybrid ion batterySenthilkumar, S. T.; Park, Jeong-Sun; Marcilla, Rebeca, et alARTICLE28 Using redox electrolytes to extend the charge storage capacity in an aqueous hybrid ion battery
2021-01Design of Large-Scale Rectangular Cells for Rechargeable Seawater BatteriesKim, Youngjin; Harzandi, Ahmad M.; Lee, Jinho, et alARTICLE250 Design of Large-Scale Rectangular Cells for Rechargeable Seawater Batteries
2021-013D Ion-Conducting, Scalable, and Mechanically Reinforced Ceramic Film for High Voltage Solid-State BatteriesKim, Hyun Woo; Han, Jinhyup; Lim, Young Jun, et alARTICLE200 3D Ion-Conducting, Scalable, and Mechanically Reinforced Ceramic Film for High Voltage Solid-State Batteries
2021-01New High-Performance Pb-Based Nanocomposite Anode Enabled by Wide-Range Pb Redox and Zintl Phase TransitionHan, Jinhyup; Park, Jehee; Bak, Seong-Min, et alARTICLE62 New High-Performance Pb-Based Nanocomposite Anode Enabled by Wide-Range Pb Redox and Zintl Phase Transition
2021-01Chemical Stability and Degradation Mechanism of Solid Electrolytes/Aqueous Media at a Steady State for Long-Lasting Sodium BatteriesWi, Tae-Ung; Lee, Chanhee; Rahman, M. Fahmi, et alARTICLE57 Chemical Stability and Degradation Mechanism of Solid Electrolytes/Aqueous Media at a Steady State for Long-Lasting Sodium Batteries
2020-12Compartmentalized desalination and salination by high energy density desalination seawater batteryKim, Namhyeok; Park, Jeong-Sun; Harzandi, Ahmad Mosen, et alARTICLE118 Compartmentalized desalination and salination by high energy density desalination seawater battery
2020-11Unveiling interfacial dynamics and structural degradation of solid electrolytes in a seawater battery systemLee, Chanhee; Wi, Tae-Ung; Go, Wooseok, et alARTICLE49 Unveiling interfacial dynamics and structural degradation of solid electrolytes in a seawater battery system
2020-09Energy projection of the seawater battery desalination system using the reverse osmosis system analysis modelLigaray, Mayzonee; Kim, NamHyeok; Park, Sanghun, et alARTICLE264 Energy projection of the seawater battery desalination system using the reverse osmosis system analysis model
2020-09Binder-free organic cathode based on nitroxide radical polymer-functionalized carbon nanotubes and gel polymer electrolyte for high-performance sodium organic polymer batteriesKim, Hyun Woo; Kim, Hye-Jung; Byeon, Huimyoung, et alARTICLE157 Binder-free organic cathode based on nitroxide radical polymer-functionalized carbon nanotubes and gel polymer electrolyte for high-performance sodium organic polymer batteries
2020-08An epoxy-reinforced ceramic sheet as a durable solid electrolyte for solid state Na-ion batteriesLim, Young Jun; Han, Jinhyup; Kim, Hyun Woo, et alARTICLE110 An epoxy-reinforced ceramic sheet as a durable solid electrolyte for solid state Na-ion batteries
2020-07Tetraruthenium Polyoxometalate as an Atom-Efficient Bifunctional Oxygen Evolution Reaction/Oxygen Reduction Reaction Catalyst and Its Application in Seawater BatteriesLee, Cheolmin; Jeon, Dasom; Park, Jehee, et alARTICLE131 Tetraruthenium Polyoxometalate as an Atom-Efficient Bifunctional Oxygen Evolution Reaction/Oxygen Reduction Reaction Catalyst and Its Application in Seawater Batteries
2020-06Sodium Biphenyl as Anolyte for Sodium-Seawater BatteriesKim, Yongil; Jung, Jaeho; Yu, Hyein, et alARTICLE103 Sodium Biphenyl as Anolyte for Sodium-Seawater Batteries
2020-05Redox-Active Functional Electrolyte for High-Performance Seawater BatteriesLee, Seyoung; Cho, Il Young; Kim, Dowan, et alARTICLE223 Redox-Active Functional Electrolyte for High-Performance Seawater Batteries
2020-05Identifying the mechanism and impact of parasitic reactions occurring in carbonaceous seawater battery cathodesLee, Wonsuk; Park, Jehee; Park, Jaehyun, et alARTICLE122 Identifying the mechanism and impact of parasitic reactions occurring in carbonaceous seawater battery cathodes
2020-02Hybrid photoelectrochemical-rechargeable seawater battery for efficient solar energy storage systemsHan, Jinhyup; Lee, Sangwoo; Youn, Chulmin, et alARTICLE622 Hybrid photoelectrochemical-rechargeable seawater battery for efficient solar energy storage systems
2020-02Pyridinic-Nitrogen-Containing Carbon Cathode: Efficient Electrocatalyst for Seawater BatteriesNguyen Dien Kha Tu; Park, Sung O; Park, Jaehyun, et alARTICLE250 Pyridinic-Nitrogen-Containing Carbon Cathode: Efficient Electrocatalyst for Seawater Batteries
2020-02Hybridization of cathode electrochemistry in a rechargeable seawater battery: Toward performance enhancementPark, Jehee; Park, Jeong-Sun; Senthilkumar, S.T., et alARTICLE167 Hybridization of cathode electrochemistry in a rechargeable seawater battery: Toward performance enhancement
2019-10Emergence of rechargeable seawater batteriesSenthilkumar, S. T.; Go, Wooseok; Han, Jinhyup, et alARTICLE244 Emergence of rechargeable seawater batteries
2019-09Seawater-Mediated Solar-to-Sodium Conversion by Bismuth Vanadate Photoanode- Photovoltaic Tandem Cell: Solar Rechargeable Seawater BatteryKim, Jin Hyun; Hwang, Soo Min; Hwang, Inchan, et alARTICLE319 Seawater-Mediated Solar-to-Sodium Conversion by Bismuth Vanadate Photoanode- Photovoltaic Tandem Cell: Solar Rechargeable Seawater Battery

MENU