2023
DOI: 10.26434/chemrxiv-2023-kwh3f
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Quantifying the Limits of Methane Activation in Cu-exchanged Zeolites using Reactive and Interpretable Machine Learning based Potentials

Abstract: Natural gas remains an essential energy source for the industrial and residential sectors. However, selective valorization of methane (the main component of natural gas) into more mobile liquid energy carriers such as methanol remains challenging. Inspired by pMMO enzymes, many recent studies have examined Cu-exchanged zeolites as promising catalysts, specifically through [CuOCu]2+ sites. These efforts, in part, have been motivated by the possibility of finding an elusive “Goldilocks” active site or topology t… Show more

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Cited by 2 publications
(4 citation statements)
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“…We aimed to identify such patterns in Cu speciation in a high-throughput fashion using a machine learning model. Similar models have been reported for predictions of mechanical and chemical properties of zeolites and metal–organic frameworks, 2D zeolite constructions, zeolite-OSDA interactions governing synthesis, , and C–H activation barriers at [Cu–O–Cu] 2+ sites hosted in different zeolites . The international zeolite database (IZDB) contains 254 zeolites (composed of tetrahedral sites) that have been experimentally synthesized, and our goal is to screen these structures and identify zeolites with a strong preference for Cu monomers or dimers.…”
Section: Resultsmentioning
confidence: 65%
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“…We aimed to identify such patterns in Cu speciation in a high-throughput fashion using a machine learning model. Similar models have been reported for predictions of mechanical and chemical properties of zeolites and metal–organic frameworks, 2D zeolite constructions, zeolite-OSDA interactions governing synthesis, , and C–H activation barriers at [Cu–O–Cu] 2+ sites hosted in different zeolites . The international zeolite database (IZDB) contains 254 zeolites (composed of tetrahedral sites) that have been experimentally synthesized, and our goal is to screen these structures and identify zeolites with a strong preference for Cu monomers or dimers.…”
Section: Resultsmentioning
confidence: 65%
“…Geometric features of Cu dimers, such as Cu–O–Cu angle and Cu–Cu distance, are reported as important parameters for PMO activity and potentially other reactions. Signatures of these geometric features are typically detected using resonance Raman (rR), , UV–vis, ,, and EXAFS. , To determine how zeolite topology influences geometric features of Z 2 Cu 2 O dimers, the most populous dimer species at high temperatures, we analyzed DFT-optimized Z 2 Cu 2 O structures in the five zeolite topologies: CHA, MOR, BEA, AFX, and FER.…”
Section: Resultsmentioning
confidence: 99%
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“…[173][174][175][176] Machine learning based potentials (MLPs) have recently emerged as a promising method of accurately modelling the properties and dynamics of several systems and reactions. [177][178][179][180][181][182][183][184][185] As a result, MLPs are iteratively trained to 'learn' the potential energy surface of the system (based on limited DFT data) and can serve as a viable substitute for QM/MM and QM/QM schemes and apply to systems of arbitrary size at almost DFT level of accuracy. Consequently, MLPs can help to perform high-throughput screening of several catalyst configurations in multiple zeolites 179 if desired, in addition to being able to model system dynamics.…”
Section: Frontier Dalton Transactionsmentioning
confidence: 99%