Catalytic and DRIFTS study of the WGS reaction on Pt-based catalysts |
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Authors: | Ch Vignatti MS AvilaCR Apesteguía TF Garetto |
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Affiliation: | Catalysis Science and Engineering Research Group (GICIC), Instituto de Investigaciones en Catálisis y Petroquímica – INCAPE – (UNL-CONICET), Santiago del Estero 2654, 3000 Santa Fe, Argentina |
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Abstract: | The water–gas shift (WGS) activity of Pt/SiO2, Pt/CeO2 and Pt/TiO2 catalysts was studied by in-situ diffuse reflection infrared Fourier transform spectroscopy (DRIFTS). Samples contained a similar amount of Pt, between 0.34 and 0.50%, and were characterized by employing a variety of physical and spectroscopic techniques. The catalyst activities were evaluated through both CO conversion versus temperature and CO conversion versus time tests. The DRIFTS spectra were obtained on stream during the WGS reaction at increasing temperatures, from 303 to 573 K. Reduced ceria was the only active support and promoted the WGS reaction on surface bridging OH groups that react with CO to form formate intermediates. Pt/SiO2 was more active than CeO2 and catalyzed the WGS reaction through a monofunctional redox mechanism on metallic Pt sites. The CO conversion turnover rate was more than one order of magnitude greater on Pt/CeO2 than on Pt/SiO2 showing that the reaction proceeds faster via a bifunctional metal-support mechanism. Platinum on Pt/CeO2 increased the concentration of OH groups by increasing the ceria reduction extent and also provided a faster pathway for the formation of formate intermediates in comparison to CeO2 support. Pt/TiO2 catalysts were clearly more active than Pt/CeO2. The WGS reaction on Pt/TiO2 was catalyzed via a bifunctional metal-support mechanism, probably involving the activation of CO and water on the metal and the support, respectively. The role of platinum on Pt/TiO2 was critical for promoting the reduction of Ti4+ ions to Ti3+ which creates oxygen vacancies in the support to efficiently activate water. |
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Keywords: | Water&ndash gas shift Fuel cells Hydrogen production DRIFTS Pt-based catalysts Titanium dioxide Ceria dioxide |
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