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Self‐Reinforced Inductive Effect of Symmetric Bipolar Organic Molecule for High‐Performance Rechargeable Batteries

Giyeong Son, Vitalii Ri, Donghan Shin, YounJoon Jung, Chan Beum Park, Chunjoong Kim

2023Advanced Science25 citationsDOIOpen Access PDF

Abstract

Abstract Herein, the self‐reinforced inductive effect derived from coexistence of both p ‐ and n ‐type redox‐active motifs in a single organic molecule is presented. Molecular orbital energy levels of each motif are dramatically tuned, which leads to the higher oxidation and the lower reduction potentials. The self‐reinforced inductive effect of the symmetric bipolar organic molecule, N,N ’‐dimethylquinacridone (DMQA), is corroborated, by both experimental and theoretical methods. Furthermore, its redox mechanism and reaction pathway in the Li + ‐battery system are scrutinized. DMQA shows excellent capacity retention at the operating voltage of 3.85 and 2.09 V (vs Li + /Li) when used as the cathode and anode, respectively. Successful operation of DMQA electrodes in a symmetric all‐organic battery is also demonstrated. The comprehensive insight into the energy storage capability of the symmetric bipolar organic molecule and its self‐reinforced inductive effect is provided. Thus, a new class of organic electrode materials for symmetric all‐organic batteries as well as conventional rechargeable batteries can be conceived.

Topics & Concepts

Inductive effectMaterials scienceMoleculeOrganic moleculesOptoelectronicsNanotechnologyChemistryOrganic chemistryAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies