Tailoring Conversion‐Reaction‐Induced Alloy Interlayer for Dendrite‐Free Sulfide‐Based All‐Solid‐State Lithium‐Metal Battery

Abstract: Utilization of lithium (Li) metal anodes in all‐solid‐state batteries employing sulfide solid electrolytes is hindered by diffusion‐related dendrite growth at high rates of charge. Engineering ex‐situ Li‐intermetallic interlayers derived from a facile solution‐based conversion‐alloy reaction is attractive for bypassing the Li0 self‐diffusion restriction. However, no correlation is established between the properties of conversion‐reaction‐induced (CRI) interlayers and the deposition behavior of Li0 in all‐solid… Show more

“…According to the analysis details for Figure S12, it is concluded that, in all-solid-state batteries, the Pre In anode has the ability of improving interfacial compatibility and effective utilization of active Li, which is inseparable from the multifunctional interlayer formed on it. In comparison to other reports, ,,,− sulfide-based solid-state cells in this work show superior performances in view of the cycling life span, capacity retention, and areal current density (Figure e), which proves the effectiveness of a generated interlayer on the improvement of metal anode/LPSCl interface stability.…”

“…Further, resistance evolution of the anode interface was studied by employing in situ impedance coupled with distribution of relaxation times (DRT) spectra. With the assistance of electron-insulating LiF as a protective substance, − the interlayer can effectively inhibit the destruction of LPSCl and ensure low interface resistance. The application of the Pre In anode is also evaluated in an all-solid-state cell.…”

Toward Ultrastable Metal Anode/Li₆PS₅Cl Interface via an Interlayer as Li Reservoir

“…According to the analysis details for Figure S12, it is concluded that, in all-solid-state batteries, the Pre In anode has the ability of improving interfacial compatibility and effective utilization of active Li, which is inseparable from the multifunctional interlayer formed on it. In comparison to other reports, ,,,− sulfide-based solid-state cells in this work show superior performances in view of the cycling life span, capacity retention, and areal current density (Figure e), which proves the effectiveness of a generated interlayer on the improvement of metal anode/LPSCl interface stability.…”

“…Further, resistance evolution of the anode interface was studied by employing in situ impedance coupled with distribution of relaxation times (DRT) spectra. With the assistance of electron-insulating LiF as a protective substance, − the interlayer can effectively inhibit the destruction of LPSCl and ensure low interface resistance. The application of the Pre In anode is also evaluated in an all-solid-state cell.…”

Toward Ultrastable Metal Anode/Li₆PS₅Cl Interface via an Interlayer as Li Reservoir

“…The Ag-decorated Li anode was prepared by pretreating the Li foil with AgNO 3 (0.05 M) dissolved in DME-NMP (9:1) for 30 min. The Ag-decoration could greatly improve the lithium puncture resistance. , The PEO-LLZTO (EO/Li = 15, 10 wt %) separator was prepared by the casting method, whose thickness was 80 μm . To prevent the cathode active materials dissolving into PEO that induces the noxious “polysulfide shuttling” effect, a thin layer of Li 3 PS 4 was sprayed on the top of the Li 2 S cathode with the Li 3 PS 4 precursor sol and sintered together with the cathode.…”

Spray-Printed Flexible Li₂S Cathode with Inorganic Ion-Conductive Binder Nano-Li₃PS₄

Regulating p‐Band Center of Sulfur in Li‐Argyrodite to Stabilize Dual Solid–Solid Interface for Robust All‐Solid‐State Lithium–Sulfur Battery