Battery Materials & Systems LAB185
Research Interest
1. Electrode
- Porous electrode design
- Li metal surface modification
- Development of advanced binding and conducting materials
2. Electrolyte
- Study of functionality electrolyte
- Polymer electrolyte(gel, solid polymer electrolyte)
- Smart window technology development using the electrochromic element
3. Separator
- (In)organic coated separators
- Coated separators without binder
- Correlation between coated separator and electrochemical performance
4. Simulation
- Development of models for predicting battery performance
- Battery design and optimization based on simulation
- Parameter estimation based on experimental data
Advisor Professor : Lee, Yong Min
Battery Materials & Systems LAB Homepage
1. Electrode
- Porous electrode design
- Li metal surface modification
- Development of advanced binding and conducting materials
2. Electrolyte
- Study of functionality electrolyte
- Polymer electrolyte(gel, solid polymer electrolyte)
- Smart window technology development using the electrochromic element
3. Separator
- (In)organic coated separators
- Coated separators without binder
- Correlation between coated separator and electrochemical performance
4. Simulation
- Development of models for predicting battery performance
- Battery design and optimization based on simulation
- Parameter estimation based on experimental data
Advisor Professor : Lee, Yong Min
Battery Materials & Systems LAB Homepage
Co-Author(s)
Related Keyword
Recent Submissions
- Surface and interfacial cutting analysis system for adhesive strength measurement in rechargeable lithium batteries
- 표면개질층이 도입된 고체 전해질 막 및 이를 포함하는 전고체 전지
- Regularly Arranged Micropore Architecture Enables Efficient Lithium-Ion Transport in SiOx/Artificial Graphite Composite Electrode
- 상온에서 고체인 재료 간의 친화성 측정 장치
- 막-전극 접합체의 전극 내부 측정 방법