Rechargeable aqueous Zn-ion energy storage devices are promising candidates for next-generation energy storage technologies. However, the lack of highly reversible Zn-storage anode materials with low potential windows remains a primary concern. Here, we report a two-dimensional polyarylimide covalent organic framework (PI-COF) anode with high-kinetics Zn-storage capability. The well-organized pore channels of PI-COF allow the high accessibility of the build-in redox-active carbonyl groups and efficient ion diffusion with a low energy barrier. The constructed PI-COF anode exhibits a specific capacity (332 C g or 92 mAh g at 0.7 A g), a high rate capability (79.8% at 7 A g), and a long cycle life (85% over 4000 cycles). Raman investigation and first-principle calculations clarify the two-step Zn-storage mechanism, in which imide carbonyl groups reversibly form negatively charged enolates. Dendrite-free full Zn-ion devices are fabricated by coupling PI-COF anodes with MnO cathodes, delivering excellent energy densities (23.9 ∼ 66.5 Wh kg) and supercapacitor-level power densities (133 ∼ 4782 W kg). This study demonstrates the feasibility of covalent organic framework as Zn-storage anodes and shows a promising prospect for constructing reliable aqueous energy storage devices.
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