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Cho, Jaephil (조재필)

Department
School of Energy and Chemical Engineering(에너지화학공학과)
Website
http://jpcho.com/main/index.html
Lab
Nano Energy Storage Material Lab. (이차전지 소재 연구실)
Research Keywords
레독스 흐름전지, 전고체전지, 이차전지, 리튬이온전지, 아연공기전지, Li-ion battery, metal-air battery, redox-flow battery, Zinc-air batteries, All-solid state electrolyte, rechargeable battery
Research Interests
Our main field of research is achieving high energy density for lithium-ion batteries (LIBs) based on the development of anode and cathode materials which are categorized as active materials for LIBs. In addition, beyond the research related LIBs, we are expanding our research field into various next-generation battery system such as zinc-air battery and redox flow battery.
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2018-02Controllable Solid Electrolyte Interphase in Nickel-Rich Cathodes by an Electrochemical Rearrangement for Stable Lithium-Ion BatteriesKim, Junhyeok; Lee, Jieun; Ma, Hyunsoo, et alARTICLE698 Controllable Solid Electrolyte Interphase in Nickel-Rich Cathodes by an Electrochemical Rearrangement for Stable Lithium-Ion Batteries
2018-02Prospect and Reality of Ni-Rich Cathode for CommercializationKim, Junhyeok; Lee, Hyomyung; Cha, Hyungyeon, et alARTICLE537 Prospect and Reality of Ni-Rich Cathode for Commercialization
2017-12Precious metal-free approach to hydrogen electrocatalysis for energy conversion: From mechanism understanding to catalyst designWang, Tanyuan; Xie, Huan; Chen, Mengjie, et alARTICLE705 Precious metal-free approach to hydrogen electrocatalysis for energy conversion: From mechanism understanding to catalyst design
2017-12Simultaneous surface modification method for 0.4Li2MnO3-0.6LiNi1/3Co1/3Mn1/3O2 cathode material for lithium ion batteries: Acid treatment and LiCoPO4 coatingLee, Min-Joon; Lho, Eunsol; Oh, Pilgun, et alARTICLE664 Simultaneous surface modification method for 0.4Li2MnO3-0.6LiNi1/3Co1/3Mn1/3O2 cathode material for lithium ion batteries: Acid treatment and LiCoPO4 coating
2017-12Feasibility of Cathode Surface Coating Technology for High-Energy Lithium-ion and Beyond-Lithium-ion BatteriesKalluri, Sujith; Yoon, Moonsu; Jo, Minki, et alARTICLE542 Feasibility of Cathode Surface Coating Technology for High-Energy Lithium-ion and Beyond-Lithium-ion Batteries
2017-12Recent progress of analysis techniques for silicon-based anode of lithium-ion batteriesSon, Yeonguk; Sung, Jaekyung; Son, Yoonkook, et alARTICLE481 Recent progress of analysis techniques for silicon-based anode of lithium-ion batteries
2017-11A Highly Efficient and Robust Cation Ordered Perovskite Oxide as a Bifunctional Catalyst for Rechargeable Zinc-Air BatteriesBu, Yunfei; Gwon, Ohhun; Nam, Gyutae, et alARTICLE922 A Highly Efficient and Robust Cation Ordered Perovskite Oxide as a Bifunctional Catalyst for Rechargeable Zinc-Air Batteries
2017-11Temperature Dependence of the Oxygen Reduction Mechanism in Nonaqueous Li-O2 BatteriesLiu, Bin; Xu, Wu; Zheng, Jianming, et alARTICLE529 Temperature Dependence of the Oxygen Reduction Mechanism in Nonaqueous Li-O2 Batteries
2017-10Fast-charging high-energy lithium-ion batteries via implantation of amorphous silicon nanolayer in edge-plane activated graphite anodesKim, Namhyung; Chae, Sujong; Ma, Jiyoung, et alARTICLE542 Fast-charging high-energy lithium-ion batteries via implantation of amorphous silicon nanolayer in edge-plane activated graphite anodes
2017-09Confronting Issues of the Practical Implementation of Si Anode in High-Energy Lithium-Ion BatteriesChae, Sujong; Ko, Minseong; Kim, Kyungho, et alARTICLE594 Confronting Issues of the Practical Implementation of Si Anode in High-Energy Lithium-Ion Batteries
2017-08One-to-One Comparison of Graphite-Blended Negative Electrodes Using Silicon Nanolayer-Embedded Graphite versus Commercial Benchmarking Materials for High-Energy Lithium-Ion BatteriesChae, Sujong; Kim, Namhyung; Ma, Jiyoung, et alARTICLE636 One-to-One Comparison of Graphite-Blended Negative Electrodes Using Silicon Nanolayer-Embedded Graphite versus Commercial Benchmarking Materials for High-Energy Lithium-Ion Batteries
2017-07Mechanisms for electrochemical performance enhancement by the salt-type electrolyte additive, lithium difluoro(oxalato)borate, in high-voltage lithium-ion batteriesCha, Jiho; Han, Jung-Gu; Hwang, Jaeseong, et alARTICLE1247 Mechanisms for electrochemical performance enhancement by the salt-type electrolyte additive, lithium difluoro(oxalato)borate, in high-voltage lithium-ion batteries
2017-07Integrated Hierarchical Cobalt Sulfide/Nickel Selenide Hybrid Nanosheets as an Efficient Three-dimensional Electrode for Electrochemical and Photoelectrochemical Water SplittingHou, Yang; Qiu, Ming; Nam, Gyutae, et alARTICLE571 Integrated Hierarchical Cobalt Sulfide/Nickel Selenide Hybrid Nanosheets as an Efficient Three-dimensional Electrode for Electrochemical and Photoelectrochemical Water Splitting
2017-07Stabilization of Li Metal Anode in DMSO-Based Electrolytes via Optimization of Salt-Solvent Coordination for Li-O2 BatteriesLiu, Bin; Xu, Wu; Yan, Pengfei, et alARTICLE578 Stabilization of Li Metal Anode in DMSO-Based Electrolytes via Optimization of Salt-Solvent Coordination for Li-O2 Batteries
2017-06Critical Role of Cations in Lithium Sites on Extended Electrochemical Reversibility of Co-Rich Layered OxideCho, Woongrae; Myeong, Seungjun; Kim, Namhyung, et alARTICLE836 Critical Role of Cations in Lithium Sites on Extended Electrochemical Reversibility of Co-Rich Layered Oxide
2017-06Unveiling the Catalytic Origin of Nanocrystalline Yttrium Ruthenate Pyrochlore as a Bifunctional Electrocatalyst for Zn-Air BatteriesPark, Joohyuk; Park, Minjoon; Nam, Gyutae, et alARTICLE631 Unveiling the Catalytic Origin of Nanocrystalline Yttrium Ruthenate Pyrochlore as a Bifunctional Electrocatalyst for Zn-Air Batteries
2017-06Low-Temperature Carbon Coating of Nanosized Li1.015Al0.06Mn1.925O4 and High-Density Electrode for High-Power Li-Ion BatteriesLee. Min-Joon; Lho, Eunsol; Bai, Peng, et alARTICLE761 Low-Temperature Carbon Coating of Nanosized Li1.015Al0.06Mn1.925O4 and High-Density Electrode for High-Power Li-Ion Batteries
2017-06Self-Induced Concentration Gradient in Nickel-Rich Cathodes by Sacrificial Polymeric Bead Clusters for High-Energy Lithium-Ion BatteriesKim, Junhyeok; Cho, Hyeon; Jeong, Hu Young, et alARTICLE502 Self-Induced Concentration Gradient in Nickel-Rich Cathodes by Sacrificial Polymeric Bead Clusters for High-Energy Lithium-Ion Batteries
2017-04Dynamic behaviour of interphases and its implication on high-energy-density cathode materials in lithium-ion batteriesLi, Wangda; Dolocan, Andrei; Oh, Pilgun, et alARTICLE657 Dynamic behaviour of interphases and its implication on high-energy-density cathode materials in lithium-ion batteries
2017-03Li- and Mn-Rich Cathode Materials: Challenges to CommercializationZheng, Jianming; Myeong, Seungjun; Cho. Woongrae, et alARTICLE702 Li- and Mn-Rich Cathode Materials: Challenges to Commercialization

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