소개글
[전지공학] Lithium-Air Batteries(LAB)-리튬에어전지의 미래에 대한 자료입니다.
목차
1. Introduction
2. LAB의 구성
3. LIB와 LAB 비교
4. Properties of LAB
5. Weaknesses & Solutions of LAB
6. Development
7. Applications of LAB
8. References
본문내용
- Science : materials development, including creation of an advanced catalyst, a highly stable electrolyte, and efficient stabilization of the lithium anode metal.
- Engineering : development of high-porosity gas diffusion electrodes, ways of deopositing the catalyst onto the cathode and developing a membrane to prevent oxygen crossover to the lithium anode.
참고문헌
www.wirelessgalaxy.com
www.bbn.com
www.gadgetlite.com
www.smh.com.au
www.yosax.com
Lithium-Air Battery Facts - Argonne National Laboratory
Non-aqueous Lithium-Air Batteries with an Advanced Cathode Structure
Arthur Dobley, Joseph DiCarlo and K. M. Abraham
Lithium/Air Semi-Fuel Cells : High Energy Density Batteries Based on Lithium Metal Electrodes Steven J. Visco, Eugene Nimon, Bruce Katz, May-Ying Chu, and Lutgard De Jonghe
Rechargeable Lithium/Air Battery Debart, A.; Armstrong, G.; Bao, J.; Paterson, A. J
A novel high energy density rechargeable lithium/air battery
Zhang, T.; Imanishi, N.; Shimonishi, Y.; Hirano, A
A Rechargeable Lithium-Air Battery Kumar, B.; Kumar, J.; Leese, R.; Abraham, K.
The Primary Nonaqueous Lithium-Air Battery Younesi, S.; Singh, N.; Urbonaite, S.; Edstrom, K.