Integrating Dissociating Stators and Conducting Rotors Within an Amphidynamic COF‐Based Solid‐State Polymer Electrolyte for Rapid and Consecutive Li + Transport
Linchu Xu·Yaozu Liao·Xiaofu Liu·Wei Lyu·He Liu·Feng Chen·韩道红·Bo Li·Suting Wu·Yì Wáng·Hongfei Xu·Xiang Lin·Kexiang Wang
Solvent-free solid polymer electrolytes (SPEs) suffer from sluggish and discontinuous Li<sup>+</sup> transport. Although high-polarity fillers enhance dissociation, liberated Li<sup>+</sup> tends to be trapped on filler surfaces due to the spatial and dynamic mismatches, hindering Li<sup>+</sup> long-range migration. To bridge this gap, we establish a consecutive Li<sup>+</sup> transport pathway by integrating dissociating stators and conducting rotors within an amphidynamic COF (AD COF)-based p