Porous Carbon Spheres with Ultra-fine Fe2N Active Phase for Efficient Electrocatalytic Oxygen Reduction

Porous Carbon Spheres with Ultra-fine Fe2N Active Phase for Efficient Electrocatalytic Oxygen Reduction

In this work, hierarchically porous carbon spheres co-doped by iron and nitrogen were synthesized via in situ dehalogenation. The rich porous structure and relatively high specific surface area (210 m 2 /g) facilitate the formation of an ultra-fine Fe 2 N active phase and FeN 4 active centers within...

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Veröffentlicht in:Journal of electronic materials 2021-06, Vol.50 (6), p.3078-3083
Hauptverfasser: Wu, Wanyi, Wang, Mengkun, Huang, Huihui, Gu, Wenxian, Yan, Chengzhan, Chen, Guang, Yin, Dewu, Jin, Huile, Wang, Jichang, Wang, Shun
Format: Artikel
Sprache:eng
Schlagworte:
Carbon
Carbon-Based Materials for Energy Storage
Characterization and Evaluation of Materials
Chemistry and Materials Science
Electronics and Microelectronics
Instrumentation
Iron nitride
Materials Science
Nitrogen
Optical and Electronic Materials
Oxygen reduction reactions
Photoelectrons
Solid State Physics
Topical Collection: Carbon-Based Materials for Energy Storage
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Zusammenfassung:In this work, hierarchically porous carbon spheres co-doped by iron and nitrogen were synthesized via in situ dehalogenation. The rich porous structure and relatively high specific surface area (210 m 2 /g) facilitate the formation of an ultra-fine Fe 2 N active phase and FeN 4 active centers within the carbon matrix. Transmission electron microscopy and X-ray photoelectron spectroscopy analysis further reveal the presence of a dominant Fe 2 N phase and minor FeN 4 bonds in the as-prepared Fe-N-C-pd-800 samples. Because of this, the oxygen reduction reaction (ORR) process can more readily take place on Fe 2 N than on FeN 4 , and the Fe 2 N phase enriched Fe-N-C-pd-800 carbon spheres exhibit a promising onset potential ( E onset =1.02 V) and half-wave potential ( E 1/2 =0.86 V) in alkaline media. In addition, Fe-N-C-pd-800 also shows excellent methanol resistance and long-cycling stability.
ISSN:0361-5235
1543-186X
DOI:10.1007/s11664-021-08824-9