Engineering the activity of CoNx-graphene for hydrogen evolution

The sustainable generation of H2 from water electrolysis is a promising approach to alleviating current energy crisis and environmental pollution. However, the efficiency of such a system is limited by the conventional noble metal catalysts. Herein, using first-principle calculations, we demonstrate...

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Bibliographic Details
Published in:International journal of hydrogen energy 2018-11, Vol.43 (45), p.20573-20579
Main Authors: Zhang, Xilin, Yang, Zongxian, Yang, Xue, Wang, Yile, Lu, Zhansheng
Format: Article
Language:English
Subjects:
Codoped graphene
Doping concentration
Hydrogen evolution
Ligand effect
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Summary:The sustainable generation of H2 from water electrolysis is a promising approach to alleviating current energy crisis and environmental pollution. However, the efficiency of such a system is limited by the conventional noble metal catalysts. Herein, using first-principle calculations, we demonstrate the potential of non-precious Co and N-codoped graphene systems (CoNx-N/O-gra, x = 1–4) in efficiently catalyzing the hydrogen evolution reaction (HER). The findings showed that the activity of the Co sites was influenced by the concentration and configuration of N dopants, as well as the coordination environment of Co atom. From the volcano curve, obtained by plotting the exchange current as a function of the adsorption free energy, optimal performance was achieved on CoN4-gra, which was attributed to the moderate adsorption of CoN4-gra towards H. The electronic structures analyses confirmed that the hybridization between Co sp orbital and H s orbital played key role in tuning the interactions between the catalysts and H, which could be regulated by the coordination environment of Co. The present findings highlight the potential of non-precious metal/non-metal-codoped graphene as HER catalysts and offers an effective approach to tune the HER activity by modifying the coordination environment of the metal atoms. [Display omitted] •CoN4-gra possesses high performance for HER.•The HER activity could be manipulated by doping configuration and concentration.•The corrections play a critical role in HER performance.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2018.09.043