상세 보기
- Sheem, Jun Myoung;
- Koo, Jin Kyo;
- Ha, Chaeyeon;
- Kim, Young Min;
- Kim, Young Ugk;
- ... Kim, Young-Jun;
- 외 1명
WEB OF SCIENCE
5SCOPUS
6초록
Silicon, which serves as the anode active material in lithium-ion batteries (LIBs) because of its high capacity, suffers from performance degradation during continuous cycling. In this study, we designed a high-energy density electrode using artificial graphite (AG) with a graphene-coated Si/C active material (Gr@Si/C). The Gr@Si/C composite synthesized via iterative coating processes not only ensures the electronic conductivity of adjacent silicon particles but also provides a buffering capability against volumetric expansion during repeated charge/discharge cycles at high loading and increased electrode density. Remarkably, the prepared Gr@Si/C‒AG blended electrode exhibited enhanced cycle life characteristics compared with those reported in previous studies. X-ray diffraction analysis confirmed the establishment of an electron conduction path and revealed the effect of impeding particle isolation from the conducting network. Furthermore, full cells incorporating the Gr@Si/C‒AG composite electrode harmonized with the cathode exhibited superior capacity retention of more than 70 % over 200 cycles. These findings suggest that graphene-coated Si/C composites are promising anode active materials for LIBs. © 2025
키워드
- 제목
- Graphene-coated Si/C composites for high-density electrodes: Mitigating silicon degradation and enhancing cycle life in lithium-ion batteries
- 저자
- Sheem, Jun Myoung; Koo, Jin Kyo; Ha, Chaeyeon; Kim, Young Min; Kim, Young Ugk; Nah, Jae Hou; Kim, Young-Jun
- 발행일
- 2025-03
- 유형
- Article
- 저널명
- Applied Surface Science Advances
- 권
- 26