Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-29T15:55:09.778Z Has data issue: false hasContentIssue false

Sulfidation of Metal Oxide Crystallites: An Ex-Situ TEM Study

Published online by Cambridge University Press:  23 September 2015

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Abstract
Copyright
Copyright © Microscopy Society of America 2015 

References

1. Knudsen, K.G., et. al.Catalyst and Process Technologies for Ultra Low Sulfur DieselApplied Catal. A: General (1999) 189, 205215.Google Scholar
2. Song, C.An Overview of New Approaches to Deep Desulfurization for Ultra-Clean Gasoline, Diesel Fuel, and Jet FuelCatalysis Today (2003) 86, 211263.Google Scholar
3. Kerby, M.C., et. al.Advanced Catalyst technology and Applications for High Quality Fuels and LubricantsCatalysis Today (2005) 104, 5563.Google Scholar
4. Candia, R., et. al.Effect of Sulfiding Temperature on Activity and Structures of Co-Mo/Al2O3 Catalysts IIBull. Soc. Chim. Belg (1984) 93, 763773.Google Scholar
5. Prada Silvy, R., et. al.Influence of the Activation Temperature on the Degree of Sulfidation, Dispersion, and Catalytic Activity of Co-Mo/Al2O3 CatalystsIndian Journal of Technology (1987) 25, 627638.Google Scholar
6. Prayen, E., et. al.Morphology Study of MoS2- and WS2-Based Hydrotreating Catalysts by High-Resolution Electron MicroscopyJ. Catal (1994) 147, 123132.Google Scholar
7. Eijsbouts, S.On the Flexibility of the Active Phase in Hydrotreating CatalystsAppl. Catal 158 (1997) 5392.Google Scholar
8. Byskov, L.S., et. al.Sulfur Bonding in MoS2 and Co-Mo-S StructuresCatal. Lett 47 (1997) 177182.Google Scholar
9. Eijsbouts, S., et. al.Changes of MoS2 Morphology and the Degree of Co Segregation during the Sulfidation and Deactivation of Commercial Co-Mo/Al2O3 Hydroprocessing CatalystsInd. Eng.Chem. Res 46 (2007) 39453954.Google Scholar
10. Kelly, S.D., et. al.Structural Characterization of Ni-W Hydrocracking Catalysts Using In-Situ EXAFS and HRTEMJ. Catal (2009) 263, 1633.Google Scholar
11. Okamoto, Y., et. al.Effect of Sulfidation Atmosphere on the Hydrodesulfurization Activity of SiO2-supported Co-Mo Sulfide Catalysts: Local Structure and Intrinsic Activity of the Active SitesJ.Catal (2009) 268, 4959.Google Scholar
12. Kliewer, C.E., et. alEx-Situ Transmission Electron Microscopy: A Fixed Bed Reactor ApproachMicroscopy and Microanalysis (2006) 12(2), 135144.Google Scholar
13. Daage, M. & Chianelli, R.R.Structure-Function Relations in Molybdenum Sulfide Catalysts: The "Rim-Edge" ModelJ. Catal 149 (1994) 414427.Google Scholar