In Situ Formed Li3N Networks by Soft Carbon‐Si3N4 for Superior All‐Solid‐State Lithium‐Metal Batteries.

The rapid growth of lithium (Li) dendrites has long hindered the development of all‐solid‐state lithium‐metal batteries (ASSLMB). Here, a composite soft carbon (SC)‐nano Si3N4 (SiN) interlayer (SC‐SiN) is designed for in situ formation of Li3N network (with high ionic conductivity/diffusivity) after lithium embedding in nano‐Si3N4, promoting the rapid migration of Li+ and guiding the metal Li to be deposited uniformly in a 3D manner within the interlayer. It can solve the problem of rapid consumption of Li+ and local charge accumulation at the interface of solid electrolyte and Li metal anode, thus avoiding the growth of Li‐dendrites. The resulting LCO/LPSCl/SC‐SiN‐Li ASSLMB achieves ultra‐high current density (12.5 mA cm−2) and ultra‐long cycle life (22 000 cycles with no degradation), as well as ultra‐high area capacity area capacity (15 mAh cm−2) and energy density (402.5 Wh kg−1), all of which break existing ASSLMB records. In addition, it is capable of 600 cycles at an areal capacity of 2.7 mAh cm−2 and 2 C (85.7% capacity retention). A pouch cell is also assembled to delivers high energy density (>320 Wh kg−1). These confirm the application potential of this configuration and are one of the most critical breakthroughs toward the commercialization of the ASSLMB. [ABSTRACT FROM AUTHOR]