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Dry-Processable Polymer Electrolytes for Solid Manufactured Batteries

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  • Key Words:ION-CONDUCTING MEMBRANE; STATE; NANOPARTICLES; PERFORMANCE; LI7LA3ZR2O12; ENHANCEMENT

  • Abstract:Designing a solid-state electrolyte that satisfies the operating requirements of solid-state batteries is key to solid-state battery applications. The consensus is that solid-state electrolytes need to allow fast ion transport, while providing better interfacial compatibility and mechanical tolerance. Herein, a simple but effective strategy is proposed, combining hard and soft component polymer systems, to exploit a solid polymer electrolyte (SPE) with a 3D network via an in situ graft polymerization. The 3D structure is constructed by a hard cellulose nanocrystal (CNC) as the skeleton and a soft polyacrylonitrile (PAN) as the filler through a dry-processing method. The reported systems have several advantages, including ease of processing, only requiring using an exceedingly small amount of solvent, light weight (rho = 1.2 g cm(-3)), excellent mechanical stability (tensile strength of 9.5 MPa), and high ionic conductivity (3.9 x 10(-4) S cm(-1), 18 degrees C) and migration number (t(Li+) = 0.8). In particular, the high conductivity is enabled: the efficient Li+ transportation path constructed between CNC-PAN powders and abundant sulfonate radicals and hydroxyl groups on the CNC surface acts as the bridge of Li+ transition. When the CNCs are grafted onto the PAN polymer, the dipole-dipole interaction between the nitrile groups of the PAN and the hydroxyl groups of the CNCs can help to improve the mechanical stability and ionic conductivity of the SPE. Moreover, a tightly formed interface between SPE and LiFePO4 (LFP)/carbon black/SPE cathode can be achieved in an assembled solid-state battery by hot pressing, thus further enhancing the battery's performance.

  • Volume:17

  • Issue:20

  • Translation or Not:no


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