Decoupling Lithium Reutilization Behavior under Different Discharge Rates for Anode‐Free Lithium Metal Batteries

材料科学 阳极 电解质 分离器(采油) 金属锂 电弧 解耦(概率) 核工程 电极 热力学 化学 物理化学 控制工程 工程类 物理
作者
Shuo Zhang,Chong Yan,Ye Xiao,Yi‐Hui Wu,Jia‐Qi Huang
出处
期刊:Advanced Materials [Wiley]
卷期号:37 (26): e2503582-e2503582 被引量:3
标识
DOI:10.1002/adma.202503582
摘要

Abstract Anode‐free lithium metal battery (AFLMB) has become an excellent candidate for long endurance electric vehicles and electric low altitude aircraft, profiting from its high energy density as well as outstanding manufacturing safety. However, the limitation at high discharge rates of AFLMBs is shrouded in mystery, yet to achieve more attention. Herein, the limitation of fast discharge for AFLMBs is dissected exhaustively, and a symptomatic strategy to break the limit is put forward, in order to eliminate the inevitable mismatch that lies in the inferior performance of AFLMBs. A “volcano‐type” curve of capacity retention of AFLMBs is discovered with the discharge rate increased. Systematic investigation revealed that the overlapped spatial relationship between fresh deposited Li and residue Li 0 facilitated the utilization of “recoverable Li 0 ” (Li 0 ) at the prophase of discharge rate increase. However, further enhanced discharge rate induced large concentration polarization ( η conc ), reflecting limited Li + diffusion. Enabling the electrolyte to rapidly transport Li + by lowering η conc increased the optimal discharge rate as well as the cycling stability of AFLMBs. This work reveals the rate‐determining step for high‐rate discharge and expands the employment boundary of AFLMBs under harsh conditions, providing a significant complement of present knowledge with respect to the power performance of AFLMBs.
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