从锂离子电池回收废石墨用于水系锌双离子电池
Recycling of Spent Graphite from Lithium-Ion Batteries for Aqueous Zn Dual-Ion Batteries.
作者信息
Cai Wenqin, Zhang Linghong, Chen Kai, Xiao Meng, Chen Ting, Dong Xiaodong, Pu Zewei, Wan Fang, Guo Xiaodong
机构信息
School of Mechanical Engineering, Chengdu University, Chengdu 610106, P. R. China.
School of Chemical Engineering, Sichuan University, Chengdu 610065, P. R. China.
出版信息
ACS Appl Mater Interfaces. 2024 Sep 25;16(38):50897-50904. doi: 10.1021/acsami.4c11552. Epub 2024 Sep 13.
As lithium-ion batteries (LIBs) become more widespread, the number of spent LIBs gradually increases. Until now, recycling of spent LIBs has mainly concentrated on high-value cathodes, but the anode graphite has not yet attracted wide attention. In this work, spent graphite from LIBs was oxidized to graphene oxide and then thermally reduced to reduced graphene oxide (RGO), which serves as the cathode of aqueous Zn dual-ion batteries (ZDIBs). The thermal reduction process enables RGO with a large layer spacing and porous structure, which increase the anion insertion sites and transfer kinetics. As a result, the corresponding battery exhibits a high specific capacity of 96.82 mAh g at 1 A g, superior rate capability, and a high capacity retention rate of 80% after 2000 cycles. Moreover, RGO gradually transforms into a long-range disordered structure during the cycling process, which provides more transport routes and active sites for anion insertion and thus leads to the increase of capacity. This work combines the recycling of spent graphite with aqueous ZDIBs, realizing the high-value use of spent graphite.
随着锂离子电池(LIBs)的日益普及,废旧锂离子电池的数量逐渐增加。到目前为止,废旧锂离子电池的回收主要集中在高价值的阴极上,而阳极石墨尚未引起广泛关注。在这项工作中,废旧锂离子电池中的石墨被氧化成氧化石墨烯,然后热还原成还原氧化石墨烯(RGO),用作水系锌双离子电池(ZDIBs)的阴极。热还原过程使RGO具有大的层间距和多孔结构,增加了阴离子插入位点和传输动力学。结果,相应的电池在1 A g下表现出96.82 mAh g的高比容量、优异的倍率性能以及在2000次循环后80%的高容量保持率。此外,RGO在循环过程中逐渐转变为长程无序结构,为阴离子插入提供了更多的传输路径和活性位点,从而导致容量增加。这项工作将废旧石墨的回收与水系ZDIBs相结合,实现了废旧石墨的高价值利用。
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