Affiliation:
1. School of Materials Science & Engineering Beijing Institute of Technology Beijing 100081 China
Abstract
AbstractN‐type organic compounds present themselves as promising high‐capacity cathodes for aqueous Zn‐ion batteries. However, a common challenge is their working voltages often falling below 1 V versus Zn2+/Zn. To bridge this gap, a high‐voltage organic material is first developed, 5,6,11,12‐tetraazanaphthacene (TANC), using a heteroatomic substitution strategy. TANC feature a large π‐conjugated plane enriched with π−π interactions, which not only enhancing structural stability but also boosting charge transfer kinetics. The TANC cathode is achieved from its dihydro precursor, denoted as 2H‐TANC, via a facile in situ activation process within the battery itself. This electrochemical synthesis method is cost‐effective and environmentally friendly compared to traditional chemical method. The cathode shows a record‐high discharge voltage of 1.15 V (vs Zn2+/Zn) among n‐type organic materials and maintains cycling stability over 47,500 cycles. Furthermore, spent TANC electrodes can be efficiently recycled via a simple extraction process. The work marks a significant step toward the development of high‐voltage, affordable, and recyclable organic electrode materials, steering them to the forefront of future sustainable battery technologies.
Funder
National Natural Science Foundation of China
Cited by
6 articles.
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