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VL Grillo KE Arzey PM Hansbro AC Hurt S Warner J Bergfeld GW Burgess B Cookson CJ Dickason M Ferenczi T Hollingsworth MDA Hoque RB Jackson M Klaassen PD Kirkland NY Kung S Lisovski MA O'Dea K O'Riley D Roshier LF Skerratt JP Tracey X Wang R Woods L Post 《Australian veterinary journal》2015,93(11):387-393
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Nolte P Stierle A Jin-Phillipp NY Kasper N Schulli TU Dosch H 《Science (New York, N.Y.)》2008,321(5896):1654-1658
The microscopic insight into how and why catalytically active nanoparticles change their shape during oxidation and reduction reactions is a pivotal challenge in the fundamental understanding of heterogeneous catalysis. We report an oxygen-induced shape transformation of rhodium nanoparticles on magnesium oxide (001) substrates that is lifted upon carbon monoxide exposure at 600 kelvin. A Wulff analysis of high-resolution in situ x-ray diffraction, combined with transmission electron microscopy, shows that this phenomenon is driven by the formation of a oxygen-rhodium-oxygen surface oxide at the rhodium nanofacets. This experimental access into the behavior of such nanoparticles during a catalytic cycle is useful for the development of improved heterogeneous catalysts. 相似文献
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