Shishuo Liang scite author profile

Lithium-metal anodes with high theoretical capacity and ultralow redox potential are regarded as a "holy grail" of the nextgeneration energy-storage industry. Nevertheless, Li inevitably reacts with conventional liquid electrolytes, resulting in uneven electrodeposition, unstable solid electrolyte interphase, and Li dendrite formation that all together lead to a decrease in active lithium, poor battery performance, and catastrophic safety hazards. Here, we report a unique nonporous gel polymer electrolyte (NP-GPE) with a uniform and dense structure, exhibiting an excellent combination of mechanical strength, thermal stability, and high ionic conductivity. The nonporous structure contributed to a uniform distribution of lithium ions for dendrite-free lithium deposition, and Li/NP-GPE/Li symmetric cells can maintain an extremely low and stable polarization after cycling at a high current density of 10 mA cm −2 . This work provides an insight that the NP-GPE can be considered as a candidate for practical applications for lithium-metal anodes.

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A Compact Gel Membrane Based on a Blend of PEO and PVDF for Dendrite‐Free Lithium Metal Anodes

Liang

Shi

et al. 2019

ChemElectroChem

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A compact gel membrane (GM) with certain flexibility is facilely fabricated after a casted PEO/PVDF blend film is swelled by a LiPF 6 -based liquid electrolyte. The GM exhibits a suitable lithium ionic conductivity (0.28 mS cm À 1 at r.t., room temperature), a remarkable lithium-ion transference number (0.52 at r.t.), and high mechanical strength (19.0 MPa) in dry or wet state. Owing to the special comprehensive performance of the GM, dendritefree reversible lithium plating/stripping (up to 500 h) at a current density of 0.5 mA cm À 2 and a capacity of 0.25 mAh cm À 2 is achieved for Li metal anodes at r.t.. The suppression of lithium dendrite of the obtained GM is further demonstrated in Li/GM/LiFePO 4 cells with a high discharge capacity (142 mAh g À 1 at r.t. and 160 mAh g À 1 at 50°C) and a superior cycling stability. This research provides a new strategy for developing lithium metal batteries with high stability and long cycle life.

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Shishuo Liang

Gel polymer electrolytes for lithium ion batteries: Fabrication, characterization and performance

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Nonporous Gel Electrolytes Enable Long Cycling at High Current Density for Lithium-Metal Anodes

A Compact Gel Membrane Based on a Blend of PEO and PVDF for Dendrite‐Free Lithium Metal Anodes

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