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Bidirectional Confined Redox Catalysis Manipulated Quasi‐Solid Iodine Conversion for Shuttle‐Free Solid‐State Zn‐I<sub>2</sub> Battery

Mingli Wang, Jingkang Ma, Hong Zhang, Lin Fu, Xinliang Li, Ke Lu

2023Small28 citationsDOIOpen Access PDF

Abstract

Abstract Electrochemically reversible conversion of I 2 /I − redox couple in a controllable iodine speciation manner is the eternal target for practical metal‐iodine batteries. This contribution demonstrates an advanced polyiodide‐free Zn‐I 2 battery achieved by the bidirectional confined redox catalysis‐directed quasi‐solid iodine conversion. A core‐shell structured iodine cathode is fabricated by integrating multiporous Prussian blue nanocubes as a catalytic mediator, and the polypyrrole sheath afforded a confinement environment that favored the iodine redox. The zincate Zn x+1 Fe III/II [Fe(CN) 6 ] y has substantially faster zinc‐ion intercalation kinetics and overlapping kinetic voltage profiles compared with the I 2 /ZnI 2 redox, and behave as a redox mediator that catalyze reduction of polyiodides via chemical redox reactions during battery discharging and an exemplary reaction is Zn(I 3 ) 2 +2Zn x+1 Fe II [Fe(CN) 6 ] y =3ZnI 2 +2Zn x Fe III [Fe(CN) 6 ] y , ΔG =−19.3 kJ mol −1 ). During the following recharging process, the electrodeposited ZnI 2 can be facially activated by iron redox hotspots, and the Zn x Fe[Fe III/II (CN) 6 ] y served as a cation‐transfer mediator and spontaneously catalyze polyiodides oxidation (Zn(I 3 ) 2 +2Zn x Fe[Fe III (CN) 6 ] y =3I 2 +2Zn x+1 Fe[Fe II (CN) 6 ] y , ΔG = −7.72 kJ mol −1 ), manipulating the reversible one‐step conversion of ZnI 2 back to I 2 . Accordingly, a flexible solid‐state battery employing the designed cathode can deliver an energy density of 215 Wh kg iodine −1 .

Topics & Concepts

RedoxSolid-stateCatalysisIodineMaterials scienceInorganic chemistryBattery (electricity)Chemical engineeringSolid solutionChemistryPhysical chemistryThermodynamicsOrganic chemistryPhysicsMetallurgyPower (physics)EngineeringAdvanced battery technologies researchThermal Expansion and Ionic ConductivityAdvanced Battery Materials and Technologies
Bidirectional Confined Redox Catalysis Manipulated Quasi‐Solid Iodine Conversion for Shuttle‐Free Solid‐State Zn‐I<sub>2</sub> Battery | Litcius