Xu Xiao, Sun Qing, Li Yuanyuan, Ji Fengjun, Cheng Jun, Zhang Hongqiang, Zeng Zhen, Rao Yiwei, Liu Hongbin, Li Deping, Ci Lijie
State Key Laboratory of Advanced Welding and Joining, School of Materials Science and Engineering, Harbin Institute of Technology (Shenzhen), Shenzhen, 518055, China.
Key Laboratory for Liquid-Solid Structural Evolution & Processing of Materials (Ministry of Education), School of Materials Science and Engineering, Shandong University, Jinan, 250061, China.
Small. 2023 Nov;19(45):e2302934. doi: 10.1002/smll.202302934. Epub 2023 Jul 20.
All-solid-state lithium-ion batteries (ASSLBs) employing silicon (Si) anode and sulfide electrolyte attract much attention, since they can achieve both high energy density and safety. For large-scale application, sheet-type Si anode matching sulfide based ASSLBs is preferred. Here, a LiAlO layer coated Si (Si@LiAlO ) is reported for sheet-type electrode. This electrode employs conventional slurry coating methods without adding any sulfide electrolyte. The effect of LiAlO coating on the electrochemical performance and morphology evolution of Si electrode is investigated. Since the high mechanical strength and ionic conductivity of LiAlO layer can sufficiently relieve the huge expansion of Si and promote the Li diffusion, the electrochemical performance is significantly enhanced. The Si@LiAlO electrodes deliver high coulombic efficiency exceeding 80% and hold considerable specific capacity of 1205 mAh g (150 cycles, 0.33 C). The Si@LiAlO | LiNi Co Mn O full-cells exhibit a high reversible capacity of 147 mAh g (0.28 mA cm ) and a considerable capacity retention of 80.2% (62 cycles, 2.8 mA cm ). This work demonstrates promising practicability and provides a new route for the scalable preparation of Si electrode sheets for ASSLBs with extended lifespan.
采用硅(Si)负极和硫化物电解质的全固态锂离子电池(ASSLBs)备受关注,因为它们既能实现高能量密度又能保证安全性。对于大规模应用而言,与基于硫化物的ASSLBs相匹配的片状硅负极是优选的。在此,报道了一种用于片状电极的LiAlO涂层硅(Si@LiAlO)。该电极采用传统的浆料涂布方法,无需添加任何硫化物电解质。研究了LiAlO涂层对硅电极电化学性能和形貌演变的影响。由于LiAlO层具有高机械强度和离子电导率,能够充分缓解硅的巨大膨胀并促进锂的扩散,电化学性能得到显著增强。Si@LiAlO电极具有超过80%的高库仑效率,并保持1205 mAh g(150次循环,0.33 C)的可观比容量。Si@LiAlO|LiNiCoMnO全电池表现出147 mAh g(0.28 mA cm)的高可逆容量和80.2%(62次循环,2.8 mA cm)的可观容量保持率。这项工作展示了良好的实用性,并为具有更长使用寿命的ASSLBs硅电极片的规模化制备提供了一条新途径。
