Activated graphene nanoplatelets decorated with carbon nitrides for efficient electrocatalytic oxygen reduction reaction

Selvarajan, Premkumar; Fawaz, Mohammed; Sathish, CI; Li, Mengyao; Chu, Dewei; Yu, Xiaojiang; Breesec, Mark B. H.; Yi, Jiabao; Vinu, Ajayan

Title: Activated graphene nanoplatelets decorated with carbon nitrides for efficient electrocatalytic oxygen reduction reaction
Creator: Selvarajan, Premkumar; Fawaz, Mohammed; Sathish, CI; Li, Mengyao; Chu, Dewei; Yu, Xiaojiang; Breesec, Mark B. H.; Yi, Jiabao; Vinu, Ajayan
Relation: Advanced Energy and Sustainability Research Vol. 2, Issue 12, no. 2100104
Publisher Link: http://dx.doi.org/10.1002/aesr.202100104
Publisher: Wiley-Blackwell
Resource Type: journal article
Date: 2021
Description: Designing a metal-free and highly efficient electrocatalyst with large number of active sites and high stability for oxygen reduction reaction (ORR) holds great promise for the commercial production of low-cost and stable fuel cells. Herein, a novel strategy of introducing both porosity and electrochemically active carbon nitride (CN) matrix in the graphene nanoplatelets (GNPs) through a simple integration of chemical activation and the polymerization of CN precursor is reported. The characterization results confirm the successful integration of the CN matrix and the formation of the porous network in the GNPs. The highly dispersed CN matrix in the GNPs offers not only a large number of electrochemically active sites but also enhances the interaction with the oxygen intermediates, while the GNPs significantly reduce the electron localization in the catalyst. Due to the combined effect of CN matrix, porosity, and the conductive graphene framework, the prepared electrocatalyst gives exceptional ORR activity with a current density of 5.1 mA cm−2 and a positive onset potential of 0.87 V, which also shows excellent stability and tolerance toward methanol. The strategy adopted here may open a platform to design a series of novel electrocatalysts with enhanced performance for ORR in fuel cells.
Subject: activated graphene nanoplatelets; carbon nitride impregnation; chemical activation; oxygen reduction reaction electrocatalysts
Identifier: http://hdl.handle.net/1959.13/1436931
Identifier: uon:40179
Identifier: ISSN:2699-9412
Language: eng
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