Litcius/Paper detail

Reaction Environment-Tailored Synthesis of High-Quality Prussian Blue Analogues for Ultra-Stable Potassium Ion Batteries

Shu‐Hua Zhang, Chongwei Gao, Xunan Wang, W.B. Li, Cheng Yang, Feiyu Kang, Dengyun Zhai

2025Nano Letters8 citationsDOI

Abstract

Fe-based Prussian blue analogues (PB: K 2 Fe[Fe(CN) 6 ]) have been considered as highly competitive cathode materials for potassium-ion batteries due to their open framework and abundant redox active centers. However, the electrochemical performance of the PB cathode is deteriorated by unavoidable introduction of [Fe(CN) 6 ] 4– vacancies and crystal water. This work tailors the synthesis reaction environment, enabling precise control over reactant dissolution kinetics to minimize the level of structural V FeCN and crystal water. The as-prepared PB cathode achieves unprecedented cycling stability: 2500 cycles (running over one year) at 50 mA g –1 and 20,000 cycles at 500 mA g –1, respectively. In situ characterizations reveal that reduced vacancies are conducive to activating the electrochemical activity of the low spin Fe redox centers and ensuring structural stability during long-term cycling. Furthermore, the mother liquor allows for multiple recycling without functional degradation via quantitatively calibrating its concentration, endowing this strategy with significant potential for practical application.

Topics & Concepts

Prussian blueCathodeRedoxElectrochemistryDissolutionChemistryDegradation (telecommunications)Inorganic chemistryIonElectrodeChemical engineeringCrystal structureCrystal (programming language)Reaction mechanismMaterials sciencePotassiumKineticsReversible reactionSingle crystalAnodeCatalysisSingle displacement reactionPotassium-ion batteryChemical stabilityAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced battery technologies research