"Advanced Nano-Bio Materials for Energy Lab"의 두 판 사이의 차이
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(새 문서: *소속: 서울 공과대학 에너지공학과 *영문명: Advanced Nano-Bio Materials for Energy Lab *실장: 이윤정 에너지공학과 교수 *홈페이지: http...) |
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| 4번째 줄: | 4번째 줄: | ||
*홈페이지: https://yjlee.org/ | *홈페이지: https://yjlee.org/ | ||
= 주요 연구 = | = 주요 연구 = | ||
| + | |||
| + | === NANOMATERIALS DESGIN FOR LITHIUM ION BATTERIES (LIB) === | ||
| + | * Next generation high power cathodes | ||
| + | * Nanostructured anodes | ||
| + | * Hybrid Electrode Materials based on 2-dimensional graphene templates | ||
| + | * Nanostrucrured electrodes using biological templates | ||
| + | |||
| + | === POROUS CARBON BASED MATERIAL DESIGN FOR LITHIUM-AIR BATTERIES === | ||
| + | * 3-dimensional porous carbon air-breathing electrodes | ||
| + | * Catalyst loaded hierachical hybrid electrode based on porous graphene | ||
| + | |||
| + | === BIO-INSPIRED NANOCHANNELS === | ||
| + | * Novel ion selective mechanism using bio-functional molecules | ||
| + | * High efficiency ion selective nanochannels | ||
| + | * Mimicking electric eels: Blue energy harvesting using ion selective channel | ||
| + | * Graphene-based ion selective membranes | ||
| + | * Aquaporin inspired water channel for water treatment and energy harvesting | ||
2019년 10월 29일 (화) 14:37 기준 최신판
- 소속: 서울 공과대학 에너지공학과
- 영문명: Advanced Nano-Bio Materials for Energy Lab
- 실장: 이윤정 에너지공학과 교수
- 홈페이지: https://yjlee.org/
목차
주요 연구
NANOMATERIALS DESGIN FOR LITHIUM ION BATTERIES (LIB)
- Next generation high power cathodes
- Nanostructured anodes
- Hybrid Electrode Materials based on 2-dimensional graphene templates
- Nanostrucrured electrodes using biological templates
POROUS CARBON BASED MATERIAL DESIGN FOR LITHIUM-AIR BATTERIES
- 3-dimensional porous carbon air-breathing electrodes
- Catalyst loaded hierachical hybrid electrode based on porous graphene
BIO-INSPIRED NANOCHANNELS
- Novel ion selective mechanism using bio-functional molecules
- High efficiency ion selective nanochannels
- Mimicking electric eels: Blue energy harvesting using ion selective channel
- Graphene-based ion selective membranes
- Aquaporin inspired water channel for water treatment and energy harvesting
