Jiamin Qi scite author profile

Single-atom catalysts (SACs) have recently been shown to have high performance in catalyzing the synthesis of NH 3 from N 2 . Here, we systematically investigated a series of single transition metal atoms anchored on stepped CeO 2 (CeO 2 -S) to screen the potential electrocatalysts for a N 2 reduction reaction (NRR) via density functional theory computations. We first demonstrated that these SACs are stable via large calculated binding energies. Second, we evaluated the adsorption of *N 2 over CeO 2 -Ssupported single atoms. Here, those systems that can activate N 2 molecules were selected as candidates. We then showed that CeO 2 -S-supported single Mo and Ru atoms have high catalytic activity for NRR via low limiting potentials of −0.52 and −0.35 V, respectively. Meanwhile, the competitive hydrogen evolution reaction is highly suppressed over these two SACs because the adsorption of *N 2 is prior to *H. Finally, the origin of the NRR activity over these SACs was investigated. This work offers useful insights into designing high-performance CeO 2 -based electrocatalysts for NRR.

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A novel phosphotungstic acid-supported single metal atom catalyst with high activity and selectivity for the synthesis of NH₃ from electrochemical N₂ reduction: a DFT prediction

Gao

Wang

Ming-an

et al. 2019

J. Mater. Chem. A

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Vapor-phase self-assembly for generating thermally stable single-atom catalysts

Wan

et al. 2022

Chem

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Investigation on the key techniques and application of the new-generation automatically formed roadway without coal pillars by roof cutting

Zhang

Guo

et al. 2022

International Journal of Rock Mechanics and Mining Sciences

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Catalytic role of assembled Ce Lewis acid sites over ceria for electrocatalytic conversion of dinitrogen to ammonia

Zhou

Xie

et al. 2021

Journal of Energy Chemistry

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Jiamin Qi

Design of a High-Performance Electrocatalyst for N₂ Conversion to NH₃ by Trapping Single Metal Atoms on Stepped CeO₂

A novel phosphotungstic acid-supported single metal atom catalyst with high activity and selectivity for the synthesis of NH₃ from electrochemical N₂ reduction: a DFT prediction

Vapor-phase self-assembly for generating thermally stable single-atom catalysts

Investigation on the key techniques and application of the new-generation automatically formed roadway without coal pillars by roof cutting

Catalytic role of assembled Ce Lewis acid sites over ceria for electrocatalytic conversion of dinitrogen to ammonia

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Jiamin Qi

Design of a High-Performance Electrocatalyst for N2 Conversion to NH3 by Trapping Single Metal Atoms on Stepped CeO2

A novel phosphotungstic acid-supported single metal atom catalyst with high activity and selectivity for the synthesis of NH3 from electrochemical N2 reduction: a DFT prediction

Vapor-phase self-assembly for generating thermally stable single-atom catalysts

Investigation on the key techniques and application of the new-generation automatically formed roadway without coal pillars by roof cutting

Catalytic role of assembled Ce Lewis acid sites over ceria for electrocatalytic conversion of dinitrogen to ammonia

Contact Info

Product

Resources

About

Design of a High-Performance Electrocatalyst for N₂ Conversion to NH₃ by Trapping Single Metal Atoms on Stepped CeO₂

A novel phosphotungstic acid-supported single metal atom catalyst with high activity and selectivity for the synthesis of NH₃ from electrochemical N₂ reduction: a DFT prediction