Kim Changhyeon, Kim Huihun, Sadan Milan K, Jeon Minyeong, Cho Gyubong, Ahn Jouhyeon, Kim Kiwon, Cho Kwonkoo, Ahn Hyojun
Daejoo Electronic Materials Co., LTD., Seohaean 148, Siheung, Gyeonggi-do, 15094, Republic of Korea.
YoulChon Chemical, Doyeongwan, 112 Yeouidaebang-ro, Dongjak-gu, Seoul, 07057, Republic of Korea.
Small. 2021 Dec;17(50):e2102618. doi: 10.1002/smll.202102618. Epub 2021 Oct 15.
Metal foil electrodes are simple to prepare and have a high active material loading, making them well suited for the fabrication of inexpensive high-energy-density batteries. Herein, Sn metal foil is used as a binder- and conductive additive-free anode for sodium-ion batteries, achieving a high reversible specific capacity of 692 mAh g and coulombic efficiency of 99% after 100 cycles at a rate of 0.1 C. During the first discharge process, the anode undergoes area expansion. It then splits into multiple parts during the first-charge process. Upon cycling, the separated parts reconnect and form a single piece with a porous and robust coral structure owing to the self-healing nature of the anode. A full cell with a Sn foil anode and Na V (PO ) cathode shows a stable cycle life of 100 mAh g for 300 cycles. Thus, the cracking or pulverization of the Sn anode is not the principal origin of poor cycling properties. The adopted strategy will promote the development and commercialization of high-capacity metal foil anodes that undergo volume changes during charge/discharge cycling.
金属箔电极制备简单且活性材料负载量高,使其非常适合用于制造廉价的高能量密度电池。在此,锡金属箔用作钠离子电池的无粘结剂和无导电添加剂的负极,在0.1 C的电流密度下循环100次后,实现了692 mAh g的高可逆比容量和99%的库仑效率。在首次放电过程中,负极会发生面积膨胀。然后在首次充电过程中分裂成多个部分。循环时,由于负极的自愈特性,分离的部分重新连接并形成具有多孔且坚固的珊瑚结构的单片。具有锡箔负极和Na V(PO)正极的全电池在300次循环中显示出100 mAh g的稳定循环寿命。因此,锡负极的开裂或粉化不是循环性能差的主要原因。所采用的策略将促进在充放电循环过程中发生体积变化的高容量金属箔负极的开发和商业化。
