Issue 6, 2020

NH3-Plasma pre-treated carbon supported active iron–nitrogen catalyst for oxygen reduction in acid and alkaline electrolytes

Abstract

Metal–nitrogen–carbon (M–N–C) catalysts synthesized by a conventional high-temperature carbonization method are considered as promising electrocatalysts for the oxygen reduction reaction. Herein, we proposed a new approach for the preparation of M–N–C catalysts through NH3-plasma pretreatment of high surface area black pearl carbon. In this study, a pre-treated carbon support facilitated the formation of an Fe–N–C (FeNC/NH3–C) type model catalyst through pyrolysis, acid-treatment, and an additional pyrolysis step. In contrast to untreated FeNC/C, plasma pre-treated FeNC/NH3–C contains Fe3C and Fe–Nx as active catalytic sites. XPS confirms the presence of a high surface concentration of FeNx (43.6%) on FeNC/NH3–C that promotes low oxygen reduction overpotential (0.80 V vs. RHE in 0.5 M H2SO4 and 1.0 V vs. RHE in 0.1 M KOH). Hence plasma activates the surface and incorporates nitrogen, which forms stable Fe–N coordination for accelerating oxygen reduction. Importantly, FeNC/NH3–C shows a lower peroxide yield at 0.6 V vs. RHE (<1.0% in 0.5 M H2SO4 and <2% in 0.1 M KOH) that can reduce the detrimental effect of H2O2 on the catalyst support and exhibits high stability, as seen from thousands of potential cycling stability tests of FeNC/NH3–C in acid solutions. Thereby this plasma-based new synthetic approach can promote more active and stable non-precious metal catalysts.

Graphical abstract: NH3-Plasma pre-treated carbon supported active iron–nitrogen catalyst for oxygen reduction in acid and alkaline electrolytes

Supplementary files

Article information

Article type
Paper
Submitted
16 12 2019
Accepted
03 2 2020
First published
06 2 2020

Catal. Sci. Technol., 2020,10, 1675-1687

NH3-Plasma pre-treated carbon supported active iron–nitrogen catalyst for oxygen reduction in acid and alkaline electrolytes

R. Mohan, A. Modak and A. Schechter, Catal. Sci. Technol., 2020, 10, 1675 DOI: 10.1039/C9CY02545F

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