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Ostwald-ripening sintering kinetics of Pd-based three-way catalyst: Importance of initial particle size of Pd

•Commercial and model Pd TWCs with larger initial Pd particles sinter more slowly.•The optimum initial particle size with sintering resistance is around 10nm.•The Ostwald-ripening mechanism correctly describes sintering rates of Pd TWCs.•The PSD of Pd is well predicted by the Ostwald-ripening sinter...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2017-05, Vol.316, p.631-644
Main Authors: Kang, Sung Bong, Lim, Jong Bin, Jo, Donghui, Nam, In-Sik, Cho, Byong K., Hong, Suk Bong, Kim, Chang Hwan, Oh, Se H.
Format: Article
Language:English
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Summary:•Commercial and model Pd TWCs with larger initial Pd particles sinter more slowly.•The optimum initial particle size with sintering resistance is around 10nm.•The Ostwald-ripening mechanism correctly describes sintering rates of Pd TWCs.•The PSD of Pd is well predicted by the Ostwald-ripening sintering model. The sintering rates of commercial and lab-prepared Pd three-way catalysts (TWCs) as a function of the catalyst mileage were examined by CO chemisorption, XRD and TEM. Interestingly, the sintering rates of the Pd catalysts with a larger initial particle size were slower than those with a smaller initial particle size. This moderation of the growth rate of Pd with increasing initial particle sizes was consistent with the Ostwald-ripening mechanism, attributable mainly to the combination of the decrease of the surface tension of the Pd crystallite and the increase of the evaporating activation energy of Pd. Moreover, the variation of the Pd particle size distribution (PSD) observed in the TEM analysis was well predicted by the Ostwald-ripening sintering model in which the sintering kinetic parameter was a unique function of the initial particle size of Pd.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2017.01.136