Heterogeneous Catalysts. Группа авторов

Heterogeneous Catalysts - Группа авторов


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63.7 27.1 9.2 Recycled 2 6‐wt% Au/SiO2 Au55 6.35 3.0 Trace Trace — — 0.6‐wt% Au/SiO2 PVP — 4.0 Trace Trace — — l‐wt% Au/C ME — 17.0 No reaction — — — 5‐wt% Au/SiO2 IW — >30 No reaction — — —

      PVP, poly‐n‐vinylpyrrolidone; ME, microemulsion; IW, incipient wetness.

      Mean Au particle size, calculated by counting particles in high‐resolution TEM images of many different regions, is the crucial factor in determining activity. Results from recycled Au55‐based catalysts confirm that deactivation does not occur. All reactions were carried out at 100 °C in toluene.

      a Catalyst preparation: Au55, Au55 preparation.

      b Exact loading was determined using inductively coupled plasma mass spectroscopy.

      c For full statistical breakdown of particle size distributions.

      The importance of efficient activation of cluster‐based catalysts for CO oxidation was highlighted by a study that compared ligand removal using ozone exposure against a rapid thermal treatment for catalysts containing Au13[PPh3]4[S(CH2)11CH3]4 (8 Å diameter) ligand‐protected clusters on titania (anatase phase) [68]. The authors demonstrated that ozone treatment, followed by calcination at 400 °C for two hours in air, resulted in the most active catalyst, which had smaller gold particles compared with the less active catalyst treated by calcination alone.

High‐resolution electron microscopy images (a1–c1) and (a2–c2) of Au9 clusters deposited on titania nanosheets under optimized imaging conditions. The scale bar is 0.5 nm. Panels I, III, and IV show the density functional theory (DFT) models for three isomers of Au9.

      Source: Al Qahtani et al. 2016 [72]. Reproduced with permission of American Institute of Physics. (See online version for color figure).

      Interestingly, even for the seemingly similar in nature Aun(SG)m clusters (n = 10, 15, 18, 22, 25, 29, 33, 39), only some of the clusters (n = 10, 15, 18, 25, 39) proved to be stable with respect to aggregation during activation, while others (n = 22, 29, 33) produced larger aggregates under the same activation conditions [75]. Although catalysts with “as‐deposited” clusters had higher catalytic activity than the pure support, the removal of ligands resulted in about fourfold increase in the H2 production rate. Similarly, about fourfold higher activity of a Au10‐cluster‐based catalyst was observed in comparison with catalysts made using large Au NPs.

      In cases of relatively weak affinity between clusters and surface of support, fabrication of catalysts with reasonably high metal loadings may require a special approach of adding a non‐solubilizing (for cluster) solvent to the deposition mixture. For example, in the case of deposition of the Au9 on WO3 for loadings greater than 0.1 wt%, n‐hexane was slowly added to the mixture


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