Probing surface-sensitive redox properties of VOX /TiOcatalyst nanoparticles

Martin Ek, Logi Arnarson, Poul Georg Moses, Søren B. Rasmussen, Magnus Skoglundh, Eva Olsson, Stig Helveg*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Redox processes of oxide materials are fundamental in catalysis. These processes depend on the surface structure and stoichiometry of the oxide and are therefore expected to vary between surface facets. However, there is a lack of direct measurements of redox properties on the nanoscale for analysing the importance of such faceting effects in technical materials. Here, we address the facet-dependent redox properties of vanadium-oxide-covered anatase nanoparticles of relevance to, e.g., selective catalytic reduction of nitrogen oxides. The vanadium oxidation states at individual nanoscale facets are resolved in situ under catalytically relevant conditions by combining transmission electron microscopy imaging and electron energy loss spectroscopy. The measurements reveal that vanadium on {001} facets consistently retain higher oxidation states than on {10l} facets. Insight into such structure-sensitivity of surface redox processes opens prospects of tailoring oxide nanoparticles with enhanced catalytic functionalities.

Original languageEnglish
JournalNanoscale
Volume13
Issue number15
Pages (from-to)7266-7272
ISSN2040-3364
DOIs
Publication statusPublished - 2021

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