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Enhancing battery longevity by regulating the solvation chemistry of organic iodide

Wenshuo Shang, Qianwu Chen, Song Chen, Jintao Zhang

2024Angewandte Chemie International Edition11 citationsDOIOpen Access PDF

Abstract

Abstract For rechargeable zinc‐iodine batteries, the low electrical conductivity of iodine and the easy dissolution of polyiodide in the electrolyte need to be carefully managed to ensure efficient operation. Herein, we introduce an organic iodized salt, formamidinium iodide (CH 5 N 2 I), to modulate the solvation structure of iodide ion, aimed to improve the reaction kinetics of iodine for reversible redox conversion. The participation of formamidinium ion (FA + ) into solvation structure leads to the formation of the favorable FAIZn(H 2 O) 4 2+ complex, facilitating easier desolvation for redox conversion with iodine. Consequently, the inhibited formation of soluble polyiodide efficiently suppresses self‐discharging and improves reversible redox conversion. Specifically, the fabricated battery demonstrates extraordinary cycling stability, with 90.1 % capacity retention after 10,000 cycles and high coulombic efficiency of 99.6 %. These results provide inspiring principles to develop organohalide materials for high‐performance rechargeable batteries through the solvation modification and interface regulation strategies.

Topics & Concepts

SolvationLongevityIodideChemistryBattery (electricity)Environmental chemistryInorganic chemistryOrganic chemistryMoleculeGerontologyMedicineThermodynamicsPhysicsPower (physics)Advanced battery technologies researchAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies
Enhancing battery longevity by regulating the solvation chemistry of organic iodide | Litcius