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Protonic acid catalysis to generate fast electronic transport channels in O-functionalized carbon textile with enhanced energy storage capability

journal contribution
posted on 2024-11-17, 16:14 authored by Lei Wang, Xiaolong Li, Rong Liu, Yuanming Wang, Yang Bai, Yang Liu, Yu Ma, Guohui Yuan, Zaiping Guo
Oxygen (O) functionalized carbon materials can provide high charge storage because of their enrichment in redox-active sites, but they do not display fast charge transfer kinetics, which is caused by the loss of electrical conductivity from the disruption of sp carbon networks. To address this challenge, we develop a novel two-step protonic acid catalysis method that partially re-establishes a π-π conjugated system for engineering fast electronic transport channels in an O-functionalized carbon textile. This method largely maintains the sp carbon network integrity with abundant active O-functional groups embedded into a graphitic carbon host. The resultant functionalized carbon textile features both high O-content and high electrical conductivity. When incorporated in flexible electrodes for supercapacitors, the material exhibits ultrahigh areal capacitance of 2580 mF cm and excellent rate performance, outperforming other reported carbon-based flexible electrodes. The constructed flexible supercapacitor also delivers excellent electrochemical performance and mechanical stability under flexible deformations. Such a system might shed light on the design of O-functionalized carbon materials with both high O-content and high electrical conductivity for energy storage/conversion. 2 2 −2

Funding

China Postdoctoral Science Foundation (2018M641884)

History

Journal title

Nano Energy

Volume

80

Language

English

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