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Theoretical screening of a graphyne-supported transition metal single-atom catalyst for the N<sub>2</sub> reduction reaction

Min Li, Qinglong Fang, Xumei Zhao, Caijuan Xia, Anxiang Wang, You Xie, Fei Ma, Jianmei She, Zhongxun Deng

2023Physical Chemistry Chemical Physics12 citationsDOI

Abstract

in an ambient environment. However, developing low-cost and high-efficiency electrocatalysts still remains a long-standing challenge. In this work, density function theory (DFT) calculations are done to systematically investigate the NRR catalytic activity of transition metals (TM = Sc-Cu, Y-Ag, and Hf-Au) supported on monolayer graphyne (GY). TM@GY (TM = Sc, V, Mn, Y, Tc, and Os) with excellent NRR performance are demonstrated. The mixed pathway is the most favorable for Sc, V, Y, and Os@GY with the potentials of -0.37, -0.27, -0.40, and -0.36 V, respectively, while the distal reaction pathway is most favorable for Mn and Tc@GY with the potentials of -0.37 and -0.42 V. Most strikingly, Mn, Tc, and Os@GY exhibit high NRR selectivity. This work provides a screening scheme for exploring highly efficient electrocatalysts for the electrochemical NRR under ambient conditions.

Topics & Concepts

GraphyneCatalysisTransition metalAtom (system on chip)Reduction (mathematics)Oxygen reduction reactionMetalMaterials scienceChemistryNanotechnologyPhysical chemistryOrganic chemistryMetallurgyGrapheneEngineeringElectrochemistryMathematicsEmbedded systemElectrodeGeometryAmmonia Synthesis and Nitrogen ReductionCatalytic Processes in Materials ScienceHydrogen Storage and Materials
Theoretical screening of a graphyne-supported transition metal single-atom catalyst for the N<sub>2</sub> reduction reaction | Litcius