Peat as a carbon source for non-platinum group metal oxygen electrocatalysts and AEMFC cathodes

Naturally abundant well-decomposed peat was used as a precursor for synthesizing several non-platinum group metal-type oxygen electrocatalysts. The materials were studied in an alkaline environment, where it was discovered that the oxygen evolution (OER) and the oxygen reduction (ORR) activity of the catalysts can be severely influenced by changing the parameters of the peat carbonization procedure. High OER activity was achieved with a minimally treated catalyst which seemed to be because of a Co-rich FeCo alloy species. In both rotating disc electrode and anion exchange membrane fuel cell ex-periments, the catalyst based on ZnCl2-activated peat-derived carbon showed superior ORR performance with a peak power density of 51 mW cm (-2). It was found that the peak power densities of the catalysts correlated with several physical parameters. Above all, we demonstrate the possibility of fabricating advanced functional carbon materials for oxygen electrocatalysis from peat. (c) 2022 The Authors. Published by Elsevier Ltd on behalf of Hydrogen Energy Publications LLC. This is an open access article under the CC BY license (http://creativecommons.org/ licenses/by/4.0/).

Automated summary

Natural well-decomposed peat was used as a precursor for synthesizing non-platinum group metal-type oxygen electrocatalysts, with high oxygen evolution activity achieved through minimal treatment of the catalyst. It was found that changing the parameters of the peat carbonization procedure significantly influenced the oxygen evolution and reduction activities of the catalysts, while peak power densities of the catalysts correlated with several physical parameters. The study demonstrates the potential of fabricating advanced functional carbon materials for oxygen electrocatalysis from peat.