Affiliation:
1. Istanbul University: Istanbul Universitesi
Abstract
Abstract
The demand for lithium-ion batteries has dramatically increased in the last decade. However, the battery life offered by suppliers does not the level that can adequately meet the needs of end users. The development of new generation materials is so crucial accordingly. The nano-sized silicon with high theoretical capacity as the anode active material is one of the most promising sources, however, there are some problems (volume expansion) need to be solved in the use of silicon. In this study, a new generation polymer binder containing conjugated anthracene units, which gives conductivity and ethylene glycol lateral groups as another segment of the polymer backbone, which allows volumetric expansion with its flexibility has been developed. After preparing an electrode with silicon and developed conductive polymer binder (9:1) without adding any conductive additive, 800 mAh/g specific capacity is acquired after 400th cycle. It is thought that the obtained results will create an important infrastructure for the new generation conductive and flexible polymer binders for LIBs.
Publisher
Research Square Platform LLC
Reference39 articles.
1. Toward an Ideal Polymer Binder Design for High-Capacity Battery Anodes;Wu M;J Am Chem Soc,2013
2. Conductive Polymer Binder-Enabled Cycling of Pure Tin Nanoparticle Composite Anode Electrodes for a Lithium-Ion Battery;Xun S;J Electrochem Soc,2013
3. Yuca N, Taskin OS, Arici E. An overview on efforts to enhance the Si electrode stability for lithium ion batteries. Energy Storage. n/a(n/a):e94.
4. Hu S, Wang L, Huang T, Yu A. A conductive self-healing hydrogel binder for high-performance silicon anodes in lithium-ion batteries. Journal of Power Sources. 2020/02/15/ 2020;449:227472.
5. Novel Polymer Li-ion Binder Carboxymethyl Cellulose Derivative Enhanced Electrochemical Performance for Li-Ion Batteries;Qiu L;Carbohydr Polym,2014