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Screening of Silver‐Based Single‐Atom Alloy Catalysts for NO Electroreduction to NH<sub>3</sub> by DFT Calculations and Machine Learning

Jieyu Liu, Shuoao Wang, Yunyan Tian, Haiqiang Guo, Xing Chen, Weiwei Lei, Yifu Yu, Changhong Wang

2024Angewandte Chemie International Edition49 citationsDOI

Abstract

Abstract Exploring NO reduction reaction (NORR) electrocatalysts with high activity and selectivity toward NH 3 is essential for both NO removal and NH 3 synthesis. Due to their superior electrocatalytic activities, single‐atom alloy (SAA) catalysts have attracted considerable attention. However, the exploration of SAAs is hindered by a lack of fast yet reliable prediction of catalytic performance. To address this problem, we comprehensively screened a series of transition‐metal atom doped Ag‐based SAAs. This screening process involves regression machine learning (ML) algorithms and a compressed‐sensing data‐analytics approach parameterized with density‐functional inputs. The results demonstrate that Cu/Ag and Zn/Ag can efficiently activate and hydrogenate NO with small Φ max ( η ), a grand‐canonical adaptation of the G max ( η ) descriptor, and exhibit higher affinity to NO over H adatoms to suppress the competing hydrogen evolution reaction. The NH 3 selectivity is mainly determined by the s orbitals of the doped single‐atom near the Fermi level. The catalytic activity of SAAs is highly correlated with the local environment of the active site. We further quantified the relationship between the intrinsic features of these active sites and Φ max ( η ). Our work clarifies the mechanism of NORR to NH 3 and offers a design principle to guide the screen of highly active SAA catalysts.

Topics & Concepts

CatalysisSelectivityAtom (system on chip)Density functional theoryAtomic orbitalActive siteParameterized complexityHybrid functionalBimetallic stripFermi levelChemistryComputer scienceChemical physicsMaterials scienceCombinatorial chemistryComputational chemistryPhysicsAlgorithmQuantum mechanicsParallel computingOrganic chemistryElectronAmmonia Synthesis and Nitrogen ReductionNanocluster Synthesis and ApplicationsNanomaterials for catalytic reactions
Screening of Silver‐Based Single‐Atom Alloy Catalysts for NO Electroreduction to NH<sub>3</sub> by DFT Calculations and Machine Learning | Litcius