Covalent Organic Framework/Aluminum Oxide Composite Nanosheets as a Separator for High-Performance Lithium–Sulfur Batteries
Bingxin Jia, Hongmin Yu, Zhao Wang, Chan Yao, Wei Xie, Nan Jiang, Shu-Ran Zhang, Yan-Hong Xu, Hao Sun, Ning Huang
Abstract
With the depletion of fossil energy and increasingly serious environmental pollution, the development of renewable sources of energy is imminent. Exploration of high-efficiency energy storage and transformation materials has become the focus in the field of energy research. Covalent organic frameworks (COFs), as a kind of porous and crystalline polymer, have attracted extensive attention. In this work, we developed a composite material (Al 2 O 3 -G-COF SO 3 ) using COFs and alumina, which can serve as an efficient separator in lithium–sulfur (Li–S) batteries. In the composite, alumina can improve the transport ability of Li + and thus improve conductivity and SO 3 –COF can effectively restrain the shuttle of polysulfides by electrostatic repulsion. At a current density of 0.05C, the composite-based battery exhibited a high capacity of 1404 mAh g –1, which ranks as one of the highest values among all of the COF-based Li–S batteries. Even at a discharge rate of 1C, it can also achieve a high experimental capacity of 999 mAh g –1 with a low decay rate of 0.061% over 500 cycles. Moreover, the battery also showed a high electrochemical stability and long-term performance stability.