1. Ionic Polyimide Derived Porous Carbon Nanosheets as High‐Efficiency Oxygen Reduction Catalysts for Zn–Air Batteries
- Author
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Yuezeng Su, Xiaodong Zhuang, Chongqing Yang, Lingyi Zou, Kejun Tu, Jinhui Zhu, Changchun Ke, Fan Zhang, and Chenbao Lu
- Subjects
Dopant ,010405 organic chemistry ,Chemistry ,Organic Chemistry ,Heteroatom ,Limiting current ,Ionic bonding ,General Chemistry ,Conductivity ,010402 general chemistry ,01 natural sciences ,Catalysis ,0104 chemical sciences ,Chemical engineering ,Porosity ,Polyimide - Abstract
Two-dimensional (2D) porous carbon nanosheets (2DPCs) have attracted great attention for their good porosity and long-distance conductivity. Factors such as templates, precursors, and carbonization-activation methods, directly determine their performance. However, rational design and preparation of porous carbon materials with controlled 2D morphology and heteroatom dopants remains a challenge. Therefore, an ionic polyimide with both sp2 - and sp3 -hybridized nitrogen atoms was prepared as a precursor for fabricating N-doped hexagonal porous carbon nanosheets through a hard-template approach. Because of the large surface area and efficient charge-mass transport, the resulting activated 2D porous carbon nanosheets (2DPCs-a) displayed promising electrocatalytic properties for oxygen reduction reaction (ORR) in alkaline and acidic media, such as ultralow half-wave potential (0.83 vs. 0.84 V of Pt/C) and superior limiting current density (5.42 vs. 5.14 mA cm-2 of Pt/C). As air cathodes in Zn-air batteries, the as-developed 2DPCs-a exhibited long stability and high capacity (up to 614 mA h g-1 ), which are both higher than those of commercial Pt/C. This work provides a convenient method for controllable and scalable 2DPCs fabrication as well as new opportunities to develop high-efficiency electrocatalysts for ORR and Zn-air batteries.
- Published
- 2020
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