A Self-Constructed Mg 2+ /K + Co-Doped Prussian Blue with Superior Cycling Stability Enabled by Enhanced Coulombic Attraction.

Prussian blue (PB) is regarded as a promising cathode for sodium-ion batteries because of its sustainable precursor elements (e.g., Mn, Fe), easy preparation, and unique framework structure. However, the unstable structure and inherent crystal H ₂ O restrain its practical application. For this purpose, a self-constructed trace Mg ²⁺ /K ⁺ co-doped PB prepared via a sea-water-mediated method is proposed to address this problem. The Mg ²⁺ /K ⁺ co-doping in the Na sites of PB is permitted by both thermodynamics and kinetics factors when synthesized in sea water. The results reveal that the introduced Mg ²⁺ and K ⁺ are immovable in the PB lattices and can form stronger K‒N and Mg‒N Coulombic attraction to relieve phase transition and element dissolution. Besides, the Mg ²⁺ /K ⁺ co-doping can reduce defect and H ₂ O contents. As a result, the PB prepared in sea water exhibits an extremely long cycle life (80.1% retention after 2400 cycles) and superior rate capability (90.4% capacity retention at 20 C relative to that at 0.1 C). To address its practical applications, a sodium salts recycling strategy is proposed to greatly reduce the PB production cost. This work provides a self-constructed Mg ²⁺ /K ⁺ co-doped high-performance PB at a low preparation cost for sustainable, large-scale energy storage.
(© 2024 The Author(s). Advanced Science published by Wiley‐VCH GmbH.)