Advanced Sensor and Energy Materials (Mar 2022)

Plasma induced Fe-NX active sites to improve the oxygen reduction reaction performance

  • Peng Rao,
  • Tian-Jiao Wang,
  • Jing Li,
  • Pei-Lin Deng,
  • Yi-Jun Shen,
  • Yu Chen,
  • Xin-Long Tian

Journal volume & issue
Vol. 1, no. 1
p. 100005

Abstract

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Rational design of high-efficient and low-cost catalysts as alternatives to Pt-based catalysts toward the oxygen reduction reaction (ORR) is extremely desirable but challenging. In this work, Fe@NCNT is firstly synthesized via the one-pot pyrolysis method, then Fe-NX active species are in-situ created on the prepared Fe@NCNT by a feasible “plasma inducing” strategy to synthesize the resulting catalyst (Fe@NCNT-P) for ORR. The morphology of Fe@NCNT-P is perfectly inherited by the derived carbon precursor, resulting in the core-shell structure of carbon-coated Fe and a mesoporous dominant nanostructure with a high specific surface area of 536 m2 g−1. The resultant Fe@NCNT-P catalyst exhibits remarkable ORR activity and durability, as well as outstanding performance in assembled zinc-air battery (ZAB) test with a peak power density of 240 mW cm−2. This work not only reports a novel and robust ORR catalyst, but also proposes a simple and effective strategy to improve the ORR electrocatalytic performance.

Keywords