Yijin Qiao scite author profile

Developing highly efficient non-precious-metal catalysts for electrochemical reduction reaction is vital for artificial nitrogen fixation under ambient conditions. Herein, we report a bioinspired Fe3C@C composite as an efficient electrocatalyst for nitrogen reduction. The composite based on a leaf skeleton successfully replicates the natural vein structure with multichannels. The Fe3C@C core–shell structure as the real active center contributes to selective electrocatalytic synthesis of ammonia from nitrogen with Faraday efficiency of 9.15% and production rate of 8.53 μg/(h mgcat) or 12.80 μg/(h cm2) at a low potential of −0.2 V versus reversible hydrogen electrode (vs RHE), which is better than that of recently reported carbon- and iron-based materials, even comparable with that of noble-metal-based catalyst. Experiments with density functional theory calculations reveal that graphene-encapsulated Fe3C nanoparticles can improve charge transfer due to core-shell interaction, beneficial for inducing active sites for N2 adsorption and activation and thereby facilitate ammonia synthesis.

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Active-site engineering in dealloyed nanoporous catalysts for electrocatalytic water splitting

Qiao

Peng

Lan

et al. 2023

J. Mater. Chem. A

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Self-standing 3D nanoporous Ag2Al with abundant surface oxygen species facilitating oxygen electroreduction for efficient hybrid Zn battery

Peng

Zhao

Lan

et al. 2021

Journal of Energy Chemistry

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Yijin Qiao

Bioinspired Fe₃C@C as Highly Efficient Electrocatalyst for Nitrogen Reduction Reaction under Ambient Conditions

Active-site engineering in dealloyed nanoporous catalysts for electrocatalytic water splitting

Self-standing 3D nanoporous Ag2Al with abundant surface oxygen species facilitating oxygen electroreduction for efficient hybrid Zn battery

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Yijin Qiao

Bioinspired Fe3C@C as Highly Efficient Electrocatalyst for Nitrogen Reduction Reaction under Ambient Conditions

Active-site engineering in dealloyed nanoporous catalysts for electrocatalytic water splitting

Self-standing 3D nanoporous Ag2Al with abundant surface oxygen species facilitating oxygen electroreduction for efficient hybrid Zn battery

Contact Info

Product

Resources

About

Bioinspired Fe₃C@C as Highly Efficient Electrocatalyst for Nitrogen Reduction Reaction under Ambient Conditions