"에너지저장 및 변환소재 연구실"의 두 판 사이의 차이

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*실장: [[선양국]] [[에너지공학과]] 교수
 
*실장: [[선양국]] [[에너지공학과]] 교수
 
*홈페이지: http://escml.hanyang.ac.kr
 
*홈페이지: http://escml.hanyang.ac.kr
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= 주요 연구 =
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=== Cathode Materials for Lithium-ion Batteries ===
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* Advanced Cathode / Core-Shell & Concentration Gradient Material 
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* Olivine Phosphate 
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* Surface Modification 
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=== Lithium Air Batteries ===
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* Porous cathode for high efficiency and cyclability with ORR & OER catalytic effect 
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* Suitable electrolyte for stable and effective Li-O2 battery system 
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* Suggestion of new mechanism in Li-O2 battery system 
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=== Lithium Sulfur Batteries ===
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* High performance Li-S Battery Cathode Mesoporous hard carbon spherules-sulfur cathode
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* Li-S Battery Electrolyte Application Effective role of polysulfide-added electrolyte
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* LixSi-S Battery system : Full cell 
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=== Sodium-ion Batteries ===
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* Novel concept transition metal oxide cathode materials Ni-Fe-Mn based material
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* Advanced anode materials Anatase TiO2 Material
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* Optimization of full cells fabrication for practical approaches High capacity & long cycle life full cell system
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[[분류:연구실]]

2020년 9월 3일 (목) 16:27 기준 최신판

주요 연구

Cathode Materials for Lithium-ion Batteries

  • Advanced Cathode / Core-Shell & Concentration Gradient Material 
  • Olivine Phosphate 
  • Surface Modification 

Lithium Air Batteries

  • Porous cathode for high efficiency and cyclability with ORR & OER catalytic effect 
  • Suitable electrolyte for stable and effective Li-O2 battery system 
  • Suggestion of new mechanism in Li-O2 battery system 

Lithium Sulfur Batteries

  • High performance Li-S Battery Cathode Mesoporous hard carbon spherules-sulfur cathode
  • Li-S Battery Electrolyte Application Effective role of polysulfide-added electrolyte
  • LixSi-S Battery system : Full cell 

Sodium-ion Batteries

  • Novel concept transition metal oxide cathode materials Ni-Fe-Mn based material
  • Advanced anode materials Anatase TiO2 Material
  • Optimization of full cells fabrication for practical approaches High capacity & long cycle life full cell system