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Surpassing the Redox Potential Limit of Organic Cathode Materials via Extended p−π Conjugation of Dioxin

Yiwei Zheng, Haoqing Ji, Jie Liu, Zhenkang Wang, Jinqiu Zhou, Tao Qian, Chenglin Yan

2022Nano Letters31 citationsDOI

Abstract

The key to enabling high energy density of organic energy-storage systems is the development of high-voltage organic cathodes; however, the redox voltage (<4.0 V vs Li/Li+) of state-of-the-art organic electrode materials (OEMs) remains unsatisfactory. Herein, we propose a novel dibromotetraoxapentacene (DBTOP) redox center to surpass the redox potential limit of OEMs, achieving ultrahigh discharge plateaus of approximately 4.4 V (vs Li+/Li). As theoretically analyzed, electron delocalization between dioxin active centers and benzene rings as well as electron-withdrawing bromine atoms endows the molecule with a low occupied molecular orbital level by diluting the electron density of dioxin in the whole p−π conjugated skeleton, and the strong π–π interactions among the DBTOP molecules provide a faster electrochemical kinetic pathway. This tetraoxapentacene redox center makes the working voltage of OEMS closer to the high-voltage inorganic electrodes, and its chemical and structural tunability may stimulate the further development of high-voltage organic cathodes.

Topics & Concepts

RedoxCathodeElectrochemistryChemistryDelocalized electronConjugated systemMoleculeElectrodePhotochemistryNanotechnologyMaterials scienceInorganic chemistryPhysical chemistryOrganic chemistryPolymerAdvanced battery technologies researchConducting polymers and applicationsAdvanced Battery Materials and Technologies
Surpassing the Redox Potential Limit of Organic Cathode Materials via Extended p−π Conjugation of Dioxin | Litcius