The
development of high-efficiency and cost-efficient oxygen evolution
reaction (OER) catalysts is a core issue in the sector of water electrolysis.
Cobalt–molybdenum bimetal oxide (Co2Mo3O8), as a kind of non-noble transition-metal oxides, is
broadly employed as a good OER catalyst due to its abundant active
sites. However, the relatively low conductivity of Co2Mo3O8 limits further improvement in its electrocatalytic
performance. Herein, the cobalt nanoparticle-modified Co2Mo3O8 flakes are embedded into the flower-like
N-doped carbon (NC) microspheres to effectively improve the electrocatalytic
OER performance. The combination of Co2Mo3O8 and NC with a flower-like structure effectively improves
the conductivity of the material while enhancing the electrolyte penetration.
More importantly, the Co nanoparticles (NPs) on the surface of Co2Mo3O8 flakes have the capability to
furnish more active electrocatalytic active sites. The obtained Co
NP-modified Co2Mo3O8 embedded flower-like
NC microspheres (Co/Co2Mo3O8@NC)
exhibited an overpotential of 288 mV at 10 mA·cm–2, which was relatively low in comparison to that of commercial RuO2. Besides, the Co/Co2Mo3O8@NC also shows long-term durability almost without attenuation after
the 44 000 s I–T test.
Highly active catalyst of Ni-doped rod-like Co3Se4/reduced graphene oxide was designed for reducing the overpotential and improving the slow kinetics of the process toward electrocatalytic oxygen evolution reaction (OER).
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