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Article Abstract
The development of aqueous zinc-ion batteries faces persistent challenges in reconciling high mass-loading capabilities with extreme tolerance, particularly for organic cathodes prone to dissolution in aqueous electrolyte. Here, we present a halogen-bonded azo-based cathode material, 4,4'-azopyridine-iodide (AZPY-I), engineered through iodine-mediated molecular stabilization of pyridinic nitrogen sites. Analyses reveal that AZPY-I adopts a robust π-π conjugated framework stabilized by directional N···I halogen bonds, achieving ultralow solubility (<0.5 mg mL in HO) while introducing dual redox-active sites with six-electron transfer capability (N═N and I moieties). The Zn||AZPY-I cell delivers a near-theoretical capacity of 202 mAh g with a high mass loading of 22.8 mg cm at 0.5 A g, sustaining a 92% capacity retention over 150 cycles. At an ultrahigh current density (8 A g, ∼34.5 C), the cell demonstrates exceptional cyclability for 150,000 cycles with 0.00032% capacity decay per cycle. This work establishes halogen-bonded molecular engineering as a universal paradigm for designing dissolution-resistant organic electrodes, bridging molecular crystallography with practical battery metrics.
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| http://dx.doi.org/10.1021/jacs.5c07277 | DOI Listing |
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