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Screening of Transition-Metal Single-Atom Catalysts Anchored on Covalent–Organic Frameworks for Efficient Nitrogen Fixation

Juan Wang, Zhihua Zhang, Yangyang Li, Yangyang Li, Yuanyuan Qu, Yongqiang Li, Yongqiang Li, Weifeng Li, Mingwen Zhao

2021ACS Applied Materials & Interfaces73 citationsDOI

Abstract

Two-dimensional (2D) covalent–organic frameworks (COFs) offer abundant hollow sites for stably anchoring transition-metal (TM) atoms to promote single-atom catalysis (SACs), which is expected to overcome the poor stability of SACs on conventional substrate materials. Using first-principles calculations within density-functional theory, a number of TM atoms embedded on a 2D COF Pc-TFPN (TMPc-TFPN) as SACs for ammonia synthesis under ambient conditions are investigated. Through a “five-step” screening strategy, WPc-TFPN is highlighted from 26 TMPc-TFPNs as the best SACs for nitrogen reduction reaction (NRR) with a low limiting potential of −0.19 V. Meanwhile, multiple-level descriptors are developed to uncover the origins of NRR activity, among which a simple descriptor φ that involves the electronegativity and number of d electrons of TM atoms shows volcano plot trends of limiting potential of NRR. This work provides a rational strategy for fast screening SACs for the electrochemical N2 fixation using 2D COFs containing TM-N4 units as host materials, which could also be applied to other electrochemical reactions.

Topics & Concepts

ElectronegativityCovalent bondMaterials scienceCatalysisElectrochemistryLimitingTransition metalNanotechnologyNitrogenDensity functional theoryActive sitePhysical chemistryComputational chemistryElectrodeChemistryOrganic chemistryEngineeringMechanical engineeringAmmonia Synthesis and Nitrogen ReductionAdvanced Photocatalysis TechniquesCovalent Organic Framework Applications
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