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Abstract The practical utilization of Li metal anodes has been significantly plagued by the challenges of uncontrollable dendritic Li growth and poor interphase instability. Here, the study reports a novel strategy to strengthen interphase and give highly efficient active seeds concurrently to stabilize Li metal via a highly lithiophilic In 2 O 3 decorated porous scaffold. In situ configurated fast‐ion‐transport Li 2 O‐strengthened interphase layer cooperatively with highly efficient Li 13 In 3 nucleation induction can endow the uniform Li nucleation/growth and high Li utilization efficiency. As a result, the achieved modified Li metal manifests high Coulombic efficiency, ultrahigh rate performance (5 mA cm −2 ), and ultra‐long lifespan cycling durability (7975 cycles). Importantly, the established Li|LiFePO 4 cells exhibit long‐term cycling durability over 600 cycles at 1 C with an ultralow decay rate of ca . 0.017% per cycle. Moreover, the Li|LiCoO 2 pouch cells with ultrahigh areal capacity of ca . 3.89 mAh cm −2 also exhibit extraordinarily prolonged cycling performance with excellent capacity retention despite extremely harsh cycling conditions of low negative‐to‐positive‐capacity (N/P) ratio of ca . 1.7 and lean electrolyte of ca . 4.9 g Ah −1 . This work enlightens a facile and effective avenue toward highly stable Li metal anode toward reliable practicability.
Xia et al. (Wed,) studied this question.
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