Nature Energy

Long-cycling lithium-metal batteries via an integrated solid–electrolyte interphase promoted by a progressive dual-passivation coating

Nature Energy, Published online: 26 June 2025; doi:10.1038/s41560-025-01803-yStabilizing lithium-metal anodes is challenging due to their high reactivity with electrolytes. This work presents a dual-passivation polymer coating that enhances solid–electrolyte interphase stability, improving cycling performance and increasing capacity retention over extended cycles.

Jun 26, 2025 - 11:15
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Long-cycling lithium-metal batteries via an integrated solid–electrolyte interphase promoted by a progressive dual-passivation coating

Nature Energy, Published online: 26 June 2025; doi:10.1038/s41560-025-01803-yStabilizing lithium-metal anodes is challenging due to their high reactivity with electrolytes. This work presents a dual-passivation polymer coating that enhances solid–electrolyte interphase stability, improving cycling performance and increasing capacity retention over extended cycles.

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