Key Words:HIGH-PERFORMANCE; FREE CATALYSTS; PLATINUM; SHELL; ACID
Abstract:Developing low-cost and robust hydrogen oxidation reaction (HOR) electrocatalysts is urgent for anion exchange membrane fuel cells (AEMFCs). Herein, we report an efficient Ni-based catalyst for HOR in alkaline electrolyte, which features an ultrafine Ni nanoparticle (3.7 nm) core and an ultrathin N-doped carbon shell (0.36 nm). The optimized catalyst exhibits both excellent activity (24.4 A g(Ni)(-1) @ eta = 50 mV and exchange current density of 38 mu A cm(Ni)(-2)) and superior stability for the HOR. Theoretical calculations reveal that the d-band state of Ni encapsulated in ultrathin N-doped carbon shell is downshifted, with optimal binding energies of OHad and H-ad, leading to a low limiting energy pathway for HOR.
Volume:11
Issue:12
Translation or Not:no