콘텐츠 본문
논문 해외 국제전문학술지(SCI급) Effect of LiFePO4 cathode density and thickness on electrochemical performance of lithium metal polymer batteries prepared by in situ thermal polymerization
- 학술지 구분 국제전문학술지(SCI급)
- 게재년월 2015-02
- 저자명 Jiseon Jeong, Hyewon Lee, Jaecheol Choi, Myung-Hyun Ryou, Yong Min Lee
- 학술지명 Electrochimica Acta
- 발행처명 Pergamon
- 발행국가 해외
- 논문언어 외국어
- 전체저자수 5
- 논문 다운로드 링크(외부) https://doi.org/10.1016/j.electacta.2014.12.051
- 연구분야 공학 > 화학공학
논문 초록 (Abstract)
In order to investigate the effects of electrode density and thickness on the room temperature electrochemical performance of lithium metal polymer batteries (LMPBs), four LiFePO4 cathodes with different electrode density/thickness (1.6 g cm−3/20 μm, 1.6 g cm−3/40 μm, 2.0 g cm−3/20 μm, and 2.0 g cm−3/40 μm) are prepared. Several types of unit cells employing each cathode are prepared using in situ thermally cross-linked polymer electrolytes controlled under the same manufacturing condition. The unit cells employing the thinnest cathode with highest density achieve the most improved rate capability and cycle life, which seems to be attributed to the higher electrical conductivity of the cathode and shorter diffusion length of Li+ ions within the cathode pores. In addition, the LMPB with an optimized LiFePO4 cathode (2.0 g cm−3, 20 μm) and polymer electrolyte (5 vol% of the crosslinking agent with non-volatile liquid electrolytes) delivers a high and stable charge/discharge capacity under very fast charging and discharging conditions (at a 2 C rate) at room temperature.
