Research Progress on Lithium Sulfide Synthesis: A Review
Wei Weng, Youfen Lan, Ding Tang, Lijun Fu, Wen Tan, Shuiping Zhong
Abstract
All-solid-state batteries (ASSBs) are regarded as the core direction of the next generation of energy storage technology, with their commercialization time schedule being specifically listed out officially. However, the promising future of ASSBs is highly dependent on the high-efficiency synthesis of lithium sulfide (Li 2 S), which is a critical raw material for fabricating solid electrolytes. In fact, Li 2 S is also a competitive cathode material for lithium–sulfur batteries due to its high theoretical specific capacity (1167 mAh/g). Unlike previous reports that focus on a single reaction path or experimental details, this review systematically summarizes Li 2 S synthesis strategies from a new dimension of reaction medium (liquid phase, solid–solid, gas–solid) and constructs a six-dimensional radar evaluation system based on economic, technical, and environmental impacts. The contents can hopefully provide a comprehensive understanding of synthesizing critical Li 2 S raw materials for energy storage, especially for ASSBs.