Incorporating Conducting Polypyrrole into a Polyimide COF for Carbon‐Free Ultra‐High Energy Supercapacitor

超级电容器 材料科学 聚吡咯 聚酰亚胺 电解质 电化学窗口 导电聚合物 复合材料 电容 化学工程 纳米技术 离子电导率 聚合物 电极 图层(电子) 聚合 物理化学 化学 工程类
作者
Sattwick Haldar,Deepak Rase,Pragalbh Shekhar,Chitvan Jain,C. P. Vinod,En Zhang,Leonid Shupletsov,Stefan Kaskel,Ramanathan Vaidhyanathan
出处
期刊:Advanced Energy Materials [Wiley]
卷期号:12 (34) 被引量:131
标识
DOI:10.1002/aenm.202200754
摘要

Abstract Redox‐active covalent organic frameworks (COFs) store charges but possess inadequate electronic conductivity. Their capacitive action works by storing H + ions in an acidic electrolyte and is typically confined to a small voltage window (0–1 V). Increasing this window means higher energy and power density, but this risks COF stability. Advantageously, COF's large pores allow the storage of polarizable bulky ions under a wider voltage thus reaching higher energy density. Here, a COF–electrode–electrolyte system operating at a high voltage regime without any conducting carbon or redox active oxides is presented. Conducting polypyrrole (Ppy) chains are synthesized within a polyimide COF to gain electronic conductivity (≈10 000‐fold). A carbon‐free quasi‐solid‐state capacitor assembled using this composite showcases high pseudo‐capacitance (358 mF cm −2 @1 mA cm −2 ) in an aqueous gel electrolyte. The synergy among the redox‐active polyimide COF, polypyrrole and organic electrolytes allows a wide‐voltage window (0–2.5 V) leading to high energy (145 μ Wh cm −2 ) and power densities (4509 μ W cm −2 ). Amalgamating the polyimide‐COF and the polypyrrole as one material minimizes the charge and mass transport resistances. Computation and experiments reveal that even a partial translation of the modules/monomers intrinsic electronics to the COF imparts excellent electrochemical activity. The findings unveil COF‐confined polymers as carbon‐free energy storage materials.
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