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Long‐Life, High‐Rate Rechargeable Lithium Batteries Based on Soluble Bis(2‐pyrimidyl) Disulfide Cathode

Hansong Xing, Wenlong Guo, Shuai Tang, Yubing Si, Jiahan Song, Yongzhu Fu

2023Angewandte Chemie International Edition23 citationsDOIOpen Access PDF

Abstract

Abstract Organosulfides are promising candidates as cathode materials for the development of electric vehicles and energy storage systems due to their low‐cost and high capacity properties. However, they generally suffer from slow kinetics because of the large rearrangement of S−S bonds and structural degradation upon cycling in batteries. In this paper, we reveal that soluble bis(2‐pyrimidyl) disulfide (Pym 2 S 2 ) can be a high‐rate cathode material for rechargeable lithium batteries. Benefiting from the superdelocalization of pyrimidyl group, the extra electrons prefer to be localized on the π* (pyrimidyl group) than σ* (S−S bond) molecular orbitals initially, generating the anion‐like intermedia of [Pym 2 S 2 ] 2− and thus decreasing the dissociation energy of the S−S bond. It makes the intrinsic energy barrier of dissociative electron transfer depleted, therefore the lithium half cell exhibits 2000 cycles at 5 C. This study provides a distinct pathway for the design of high‐rate, long‐cycle‐life organic cathode materials.

Topics & Concepts

CathodeLithium (medication)ChemistryDissociation (chemistry)IonDisulfide bondElectronElectron transferBond-dissociation energyDegradation (telecommunications)Chemical engineeringMaterials scienceChemical physicsPhotochemistryPhysical chemistryOrganic chemistryComputer scienceTelecommunicationsBiochemistryMedicinePhysicsEndocrinologyEngineeringQuantum mechanicsAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsConducting polymers and applications
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