에너지저장 소재 및 시스템
- 서울대학교
- 오승모
페이스북
트위터
카카오톡
네이버밴드
링크복사
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- 주제분류
- 공학 >화공 >화학공학
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- 등록일자
- 2010.06.16
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- 조회수
- 9,266
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1) The materials and system technologies for batteries and capacitors, 2) Thermodynamics and kinetics relevant to energy storage devices, 3) Applications, and 4) New energy storage systems
- 수강안내 및 수강신청
- ※ 수강확인증 발급을 위해서는 수강신청이 필요합니다
Introduction to batteries and capacitors
차시별 강의
| 1. | |
Basic electrochemistry; electrode potential and ionics | This course will study basic electrochemical concepts such as standard electrode potential, electrochemical reaction rate, and closed loop. |   |
| 2. | |
Electrochemical techniques | This course will cover various electrochemical batteries which show different characteristics in both thermodynamics and kinetics. | |
| 3. | |
Introduction to batteries and capacitors | This course will study basic electrochemical concepts such as mixed potential and ions in solution system. | |
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Introduction to batteries and capacitors | This course will study basic electrochemical concepts such as mixed potential and ions in solution system. | |
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| 4. | |
Primary batteries: alkaline cells | This course will study basic electrochemical concepts of electrochemical kinetics in view of charge transfer and mass transfer kinetics. | |
| 5. | |
Primary batteries: Lithium and others | This course will study basic electrochemical concepts of electrochemical techniques such as hydronamic method and potential sweep method to observe electrochemical reaction system. | |
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Primary batteries: Lithium and others | This course will study basic electrochemical concepts of electrochemical techniques such as hydronamic method and potential sweep method to observe electrochemical reaction system. | |
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| 6. | |
Secondary batteries: lead-acid cells | This course will research on structure, electrolytes, reaction mechanisms, energy density and cell efficiency of alkaline, lithium and other cells. | |
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Secondary batteries: Ni-Cd and Ni-MH cells | This course will research on structure, electrolytes, reaction mechanisms, energy density and cell efficiency of lead-acid cells. | |
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| 7. | |
Lithium-secondary cells: negative electrodes | This couse will introduce materials used in negative electrode of lithium ion battery systems such as carbons and Li metal. | |
| 8. | |
Lithium-secondary cells: SEI | This couse will cover Li+ ion insertion mechanism and solid electrolyte interphase;SEI on negative electrode. | |
| 9. | |
Lithium-secondary cells: positive electodes | This couse will cover Li+ ion insertion and deinsertion mechanism of differents types of positive electrode materials such as LiCoO2, LiNiO2, and LiMn2O4 | |
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Lithium-secondary cells: positive electodes | This couse will cover Li+ ion insertion and deinsertion mechanism of differents types of positive electrode materials such as LiCoO2, LiNiO2, and LiMn2O4 | |
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| 10. | |
Lithium-secondary cells: separator and electolytes | This course will cover other materials in Li secondary battery systems that affects cell performances such as electrolytes, binders, and separators | |
| 11. | |
Lithium-secondary cells: ageing mechanisms | This course will research on ageing mechanisms to enhance safety and cell life. | |
| 12. | |
Lithium-secondary cells: applications and new batteries | This course will cover Li secondary betterie' applications and requirements to industry and introduce new battery systems that have better environmental and economical effects. | |
연관 자료
