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Predicted Influence of Plasma Activation on Nonoxidative Coupling of Methane on Transition Metal Catalysts

Yannick Engelmann, Prateek Mehta, Erik C. Neyts, William F. Schneider, Annemie Bogaerts

2020ACS Sustainable Chemistry & Engineering67 citationsDOI

Abstract

The combination of catalysis and nonthermal plasma holds promise for enabling difficult chemical conversions. The possible synergy between both depends strongly on the nature of the reactive plasma species and the catalyst material. In this paper, we show how vibrationally excited species and plasma-generated radicals interact with transition metal catalysts and how changing the catalyst material can improve the conversion rates and product selectivity. We developed a microkinetic model to investigate the impact of vibrational excitations and plasma-generated radicals on the nonoxidative coupling of methane over transition metal surfaces. We predict a significant increase in ethylene formation for vibrationally excited methane. Plasma-generated radicals have a stronger impact on the turnover frequencies with high selectivity toward ethylene on noble catalysts and mixed selectivity on non-noble catalysts. In general, we show how the optimal catalyst material depends on the desired products as well as the plasma conditions.

Topics & Concepts

CatalysisSelectivityChemistryOxidative coupling of methaneRadicalEthyleneTransition metalMethanePhotochemistryPlasmaExcited stateNoble metalNonthermal plasmaInorganic chemistryOrganic chemistryAtomic physicsPhysicsQuantum mechanicsCatalytic Processes in Materials SciencePlasma Applications and DiagnosticsCO2 Reduction Techniques and Catalysts