“…[16][17][18][19] Both require the electrolyte to swell to a certain extent to achieve rapid Li conductivity while maintaining good mechanical properties. [20][21][22][23] The uniqueness of this work lies in the same polymer composite serving simultaneously as the cathode binder or anode binder and cell separator. On the one hand, the polymeric binder can achieve seamless contact between the electrode material and the separator.…”
Commercial lithium-ion cell is based on layer-by-layer stacking of the cathode, porous separator and anode laminates. The internal cathode/separator and anode/separator interfaces seriously hamper Li ion transport and the displacement...
“…[16][17][18][19] Both require the electrolyte to swell to a certain extent to achieve rapid Li conductivity while maintaining good mechanical properties. [20][21][22][23] The uniqueness of this work lies in the same polymer composite serving simultaneously as the cathode binder or anode binder and cell separator. On the one hand, the polymeric binder can achieve seamless contact between the electrode material and the separator.…”
Commercial lithium-ion cell is based on layer-by-layer stacking of the cathode, porous separator and anode laminates. The internal cathode/separator and anode/separator interfaces seriously hamper Li ion transport and the displacement...
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