PVDF粘结剂结晶度对锂离子电池LiFePO4正极性能影响的研究

IF 2.9 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Joseph Nishanth, M Dinachandra Singh, Santu Panja, T Mani Chandran, Kumar Brajesh, Shobit Omar, Kanwar S Nalwa
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引用次数: 0

摘要

摘要聚偏氟乙烯(PVDF)作为粘结剂广泛应用于锂离子电池的正极和负极制备。最近关于水溶性和功能性粘合剂的报道已经坚定地证明,即使粘合剂只占电极的一小部分,它也能显著提高电池的性能。然而,之前没有报道专门探讨PVDF结晶度对LiFePO4阴极和电池性能的影响。在本工作中,制备了两种不同粘结剂PVDF 1 (Kynar HSV 900)和PVDF 2 (Solef 5130)的LiFePO4阴极。与结晶度较低的PVDF粘合剂(32.8 Pa)相比,结晶度较高的PVDF粘合剂具有更高的粘度(86.3 Pa.s),更高的粘附强度(11.42 N-cm−1)和最小的电解质摄取(11.3%)。1.30 N-cm−1,18.88%)。因此,与具有较少结晶粘合剂PVDF (~ 136 mAh-g - 1和64%)的电池相比,具有更多结晶PVDF粘合剂的电池显示出更高的初始容量(~ 146 mAh-g - 1)和稳定的循环性能(500次循环后容量保持82%)。500次充放电循环后的事后分析表明,结晶度较高的粘结剂在阴极上形成的裂纹相对较小,说明其具有较好的可循环性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating the Influence of PVDF Binder Crystallinity on the Performance of LiFePO4 Cathode in Li-ion Batteries
Abstract Poly(vinylidene fluoride) (PVDF) has been widely utilized as a binder material in cathode as well as anode preparation for Li-ion batteries. Recent reports on water-soluble and functional binders have firmly established that even though the binder consists of only a small part of the electrode, it can significantly boost cell performance. However, no previous report has specifically explored the role of PVDF crystallinity on the performance of the LiFePO4 cathode and cell. In the present work, LiFePO4 cathodes with two different binders PVDF 1 (Kynar HSV 900), and PVDF 2 (Solef 5130) have been prepared. The PVDF binder with higher crystallinity showed more viscosity (86.3 Pa.s), higher adhesion strength (11.42 N-cm−1), and minimal electrolyte uptake (11.3%) as compared to the low crystallinity binder (32.8 Pa.s, 1.30 N-cm−1, and 18.88%). Thus, the cell having more crystalline PVDF binder showed a higher initial capacity of ∼146 mAh-g−1 and stable cyclability performance (82% capacity retention after 500 cycles) as compared to the cell with less crystalline binder PVDF (∼136 mAh-g−1 and 64%). The post-mortem analysis performed after 500 cycles of charging and discharging revealed relatively smaller cracks formed in the cathode with higher crystallinity binder, which explains its better cyclability.
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CiteScore
3.60
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