Abstract
Ni3C is very promising in electrocatalytic field. However, it is rarely reported due to its harsh synthesis conditions. Herein, pure metallic Ni3C nanoparticles in situ embedded in two-dimensional (2D) nitrogen-doped carbon nanoflakes (Ni3C/NC nanoflakes) are successfully prepared through one-step pyrolyzing Ni-urea complex at a relatively mild temperature at 350 °C. The composition and nanostructure of the catalyst can be easily controlled by adjusting the synthetic conditions, such as pyrolysis temperature and reactant concentration. The NC nanoflakes with a large specific surface area and massive mesopores present a 2D morphology, which is beneficial to disperse Ni3C nanoparticles to maintain their high conductivity. Based on advantage of nanostructure, Ni3C/NC nanoflakes exhibit high electrocatalytic performance with a low overpotential of 309 mV, small Tafel slope of 72 mV dec−1, as well as good stability. Furthermore, this study could provide a new strategy for the design and fabrication of other transition-metal carbides.
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