| 1. | |
배터리 전기화학의 기본 개념 | 전지 전기화학의 기본 개념에 대해 설명한다 |  |
| 2. | |
Lithium Batteries(Anodes) | The characteristic and performance of the new materials that are expected to replace the conventional lithium cobalt cathode are listed and discussed in terms of their advantages and the issues still remaining to be solved | |
| 3. | |
Lithium Batteries(Cathodes) | The characteristic and performance of the new materials that are expected to replace the conventional lithium cobalt cathode are listed and discussed in terms of their advantages and the issues still remaining to be solved. | |
| 4. | |
Lithium Batteries(Electrolytes) | The characteristic and performance of new lithium ion conducting media that are expected to replace the unreliable, conventional lithium salt solution in organic carbonate solvents, are listed and discussed in terms of their advantages and issues remaining to be solved. Attention is given to lithium polymer membranes. | |
| 5. | |
The lithium-sulfur battery | The lithium/sulfur electrochemical system, that theoretically is able to provide values of energy density three or four times higher than conventional lithium ion batteries, is discussed in terms of recent advances and future expectations for its practical development. | |
| 6. | |
The lithium-air battery | The lithium/air electrochemical system is described in the two versions that are presently considered to be the most promising. Particular attention is given to the oxygen reduction electrochemical mechanism and to the general cell behavior. | |
| 7. | |
Flow battery and Magnesium battery | The lecture is devoted to systems alternative to lithium, such as magnesium ion batteries and flow-type batteries | |
| 8. | |
Supercapacitors | The devices designed for power application will be discussed and their performance evaluated in view of their proposed applications. | |
대구광역시 동구 동내로 64(동내동 1119) 우)41061
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링크복사
