Liang Qianwen, Chen Chao, Chen Yuancheng, Xiong Xunhui
Guangzhou Key Laboratory for Surface Chemistry of Energy Materials, New Energy Research Institute, School of Environment and Energy, South China University of Technology, Guangzhou 510006, P.R. China.
ACS Appl Mater Interfaces. 2022 Aug 31;14(34):38931-38937. doi: 10.1021/acsami.2c11632. Epub 2022 Aug 17.
The nonuniform ion/charge distribution and slow Li-ion diffusion at the Li metal/electrolyte interface lead to uncontrollable dendrites growth and inferior cycling stability. Herein, a simple mechanical rolling method is introduced to construct a mixed conductive protective layer composed of LiI and Cu on the Li metal surface through the replacement reaction between CuI nanoflake arrays and metallic Li. LiI can promote Li transportation across the interface, achieving homogeneous Li flux and suppressing the growth of Li dendrite, while the homogeneously dispersed Cu nanoparticles can offer abundant nucleation sites for Li deposition, resulting in a remarkably homogenized charge distribution. As expected, Li metal with the LiI/Cu protection layer (LiI/Cu@Li) exhibits a significantly prolonged lifespan over 350 h with slight polarization at a deposition capacity of 3 mAh cm in the carbonate electrolyte. Besides, when matched with high mass loading LiFePO cathodes (20 mg cm), the LiI/Cu@Li anodes exhibit much improved cycle stability and rate performance. Highly scalable preparation processes as well as the impressive electrochemical performances in half cells and full cells indicate the potential application of the LiI/Cu@Li anode.
锂金属/电解质界面处不均匀的离子/电荷分布以及缓慢的锂离子扩散导致锂枝晶生长失控和循环稳定性较差。在此,引入一种简单的机械轧制方法,通过CuI纳米片状阵列与金属锂之间的置换反应,在锂金属表面构建由LiI和Cu组成的混合导电保护层。LiI可促进锂跨界面传输,实现均匀的锂通量并抑制锂枝晶生长,而均匀分散的铜纳米颗粒可为锂沉积提供丰富的成核位点,从而使电荷分布显著均匀化。正如预期的那样,具有LiI/Cu保护层(LiI/Cu@Li)的锂金属在碳酸盐电解质中,沉积容量为3 mAh cm时,在轻微极化的情况下,使用寿命显著延长超过350小时。此外,当与高质量负载的LiFePO正极(20 mg cm)匹配时,LiI/Cu@Li负极表现出大大改善的循环稳定性和倍率性能。高度可扩展的制备工艺以及在半电池和全电池中令人印象深刻的电化学性能表明LiI/Cu@Li负极具有潜在的应用价值。
