Nimo Nanoparticles Anchored On N-Doped Carbon Rods For High-Efficiency Hydrogen Electrooxidation In Alkaline Media

Anion-exchange membrane fuel cells (AEMFCs) are promising clean energy devices of high efficiency; however, their large-scale applications suffer from high cost and/or poor activity of electrocatalysts, especially at the anode. Herein, an electrocatalyst composed of NiMo nanoparticles (approximate to 50 nm) in situ anchored on N-doped carbon rods (denoted as NMNC) has been synthesized by a facile calcination method. The as-prepared NMNC catalyst shows an especially high hydrogen oxidation reaction (HOR) activity (3.23 mA cm(-2) at 0.10 V vs reversible hydrogen electrode (RHE)), excellent stability during 10,000 cycles within -0.10 to 0.50 V vs RHE, and extraordinarily high CO tolerance in a 0.1 M KOH electrolyte. Particularly, the doping of Mo atoms into Ni lattices of the electrocatalyst results in Ni lattice distortion and well-regulated graphitization degree of the carbon matrix, contributing to the enhanced reducibility and accelerated HOR reaction kinetics. This facilely synthesized NMNC electrocatalyst of enhanced HOR activity is expected to serve as a promising anodic electrocatalyst for AEMFCs.