Activating Inert Metallic Compounds for High-Rate Lithium -Sulfur Batteries Through In Situ Etching of Extrinsic Metal

摘要

Surface reactions constitute the foundation of various energy conversion/storage technologies, such as the lithium-sulfur (Li-S) batteries. To expedite surface reactions for high-rate battery applications demands in-depth understanding of reaction kinetics and rational catalyst design. Now an in situ extrinsic-metal etching strategy is used to activate an inert monometal nitride of hexagonal Ni3N through ironincorporated cubic Ni3FeN. In situ etched Ni3FeN regulates polysulfide-involving surface reactions at high rates. Electron microscopy was used 10 unveil the mechanism of in situ catalyst transformation. The Li-S batteries modified with Ni3FeN exhibited superb rate capability, remarkable cycling stability at a high sulfur loading of 4.8 mgcm(-2), and lean-electrolyte operability. This work opens up the exploration of multimetallic alloys and compounds as kinetic regulators for highrate Li-S batteries and also elucidates catalytic surface reactions and the role of defect chemistry.