Electrocatalytic dinitrogen reduction reaction on silicon carbide: a density functional theory study.

Publisher:
Royal Society of Chemistry
Publication Type:
Journal Article
Citation:
Physical Chemistry Chemical Physics, 2020, 22, (38), pp. 21761-21767
Issue Date:
2020-10-07
Filename Description Size
d0cp03246h.pdf4.12 MB
Full metadata record
It is challenging to identify effective electrocatalysts for nitrogen reduction in order to advance electrochemical nitrogen fixation under ambient conditions using methods that are powered by renewable energy. Silicon carbide was investigated computationally as a metal-free, surface-derived catalyst for the electrocatalytic nitrogen reduction reaction. As demonstrated by first-principle calculations, Si-terminated and C-terminated surfaces, with the Si and C as active sites, are all reactive for dinitrogen capture and activation, resembling the catalytic behavior of popular B-based electrocatalysts, but the latter (C-terminated) offers an ultralow over-potential of 0.39 V, which is lower than most metals and alloys, while retarding hydrogen evolution. This research enriches the design of catalysts for dinitrogen fixation under ambient conditions, and also highlights a new direction for Si-based materials for nitrogen reduction.
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