Amorphous SiO<sub>2</sub> Nanoparticles Encapsulating a SiO Anode with Strong Structure for High-Rate Lithium-Ion Batteries
Xiebo Hu, Ping Xu, Mingdong Liao, Xiuqing Lu, Guobo Shen, Chenghao Zhong, Mingyu Zhang, Qizhong Huang, Zhean Su
Abstract
Constructing a robust structure is crucial for addressing the inherent flaws of SiO-based anode materials, such as significant volume expansion and high ion and electron resistance. Therefore, in this article, we synthesized a SiO-based composite denoted as SiO–SiO 2 @C via a facile liquid-phase method. This composite possessed a sturdy three-dimensional structure and dual functionality. The superstructure was formed by the carbon-coated amorphous SiO 2 nanoparticles surrounding the SiO particles, which endowed the structural stability of SiO–SiO 2 @C. It is worth noting that the SiO–SiO 2 @C composite manifested a high ICE of 75.7% and an impressive reversible capacity of 1061.0 mA h g –1 at 0.2 A g –1 after 100 cycles, with a 97% capacity retention compared to the second discharge. Furthermore, this electrode showed exceptional cycle performance of 430.5 mA h g –1 after 700 cycles at 2 A g –1 and rate performance with an average reversible capacity of 703.4 mA h g –1 at 3 A g –1 . Overall, the prepared SiO–SiO 2 @C electrode material displayed a huge opportunity for lithium-ion battery anodes.