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Nickel promotes selective ethylene epoxidation on silver

Anika Jalil, Elizabeth E. Happel, Laura A. Cramer, Adrian Hunt, Adam S. Hoffman, Iradwikanari Waluyo, M. M. Montemore, Phillip Christopher, E. Charles H. Sykes

2025Science47 citationsDOIOpen Access PDF

Abstract

Over the last 80 years, chlorine (Cl) has been the primary promoter of the ethylene epoxidation reaction valued at ~40 billion USD per year, providing a ~25% selectivity increase over unpromoted silver (Ag) (~55%). Promoters such as cesium, rhenium, and molybdenum each add a few percent of selectivity enhancements to achieve 90% overall, but their codependence on Cl makes optimizing and understanding their function complex. We took a theory-guided, single-atom alloy approach to identify nickel (Ni) as a dopant in Ag that can facilitate selective oxidation by activating molecular oxygen (O 2 ) without binding oxygen (O) too strongly. Surface science experiments confirmed the facile adsorption/desorption of O 2 on NiAg, as well as demonstrating that Ni serves to stabilize unselective nucleophilic oxygen. Supported Ag catalyst studies revealed that the addition of Ni in a 1:200 Ni to Ag atomic ratio provides a ~25% selectivity increase without the need for Cl co-flow and acts cooperatively with Cl, resulting in a further 10% initial increase in selectivity.

Topics & Concepts

SelectivityNickelCatalysisEthyleneChemistryInorganic chemistryNucleophileAdsorptionDesorptionMolybdenumDopantRheniumOxygenMaterials scienceOrganic chemistryDopingOptoelectronicsCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionCatalysis and Oxidation Reactions
Nickel promotes selective ethylene epoxidation on silver | Litcius