Inorganic Perovskite-Induced Synergy on Highly Selective Pd-Catalyzed Hydrogenation of Cinnamaldehyde

Semakaleng Bewana, Matumuene Joe Ndolomingo, Emanuela Carleschi, Bryan P. Doyle, Reinout Meijboom, Ndzondelelo Bingwa

Research output: Contribution to journalArticlepeer-review

27 Citations (Scopus)

Abstract

The transformation of various organic molecules into value-added chemicals has been driven by the success in development of highly active catalytic systems. Heterogeneous catalysts have found use in many industrial processes by virtue of their ease of separation and high activities in various reactions. However, many processes employing heterogeneous catalysts in the transformation of organic molecules suffer significantly when it comes to product selectivity. Herein, we report on the synthesis of highly selective palladium nanoparticle (Pd NP)-containing catalysts. The heterogeneous catalysts reported herein consist of active mixed-metal oxides, in the form of perovskites as catalysts, and as catalytic supports for Pd NPs. The activity of pure perovskites when applied as catalysts in the hydrogenation of cinnamaldehyde is 3 factors lower compared with Pd NPs immobilized on them. However, considering the fact that perovskites achieved percentage conversions between 18 and 25% in a short period of time makes them perfect candidates to replace platinum group metals in the future. In addition to being earmarked as the future of catalysis, perovskites induced a synergistic effect on the conversion of the substrate compared to when Pd NPs are immobilized on the silica support. Furthermore, these catalysts are 100% selective to hydrocinnamaldehyde and stable for up to five catalytic cycles. With regard to reusability of the catalysts, Pd/LaFeO3 was used as a benchmark catalyst and revealed the need for surface restructuring of the catalyst for optimum activity.

Original languageEnglish
Pages (from-to)32994-33005
Number of pages12
JournalACS applied materials & interfaces
Volume11
Issue number36
DOIs
Publication statusPublished - 11 Sept 2019

Keywords

  • catalyst stability
  • deposition-precipitation
  • hydrogenation
  • palladium NPs
  • perovskites

ASJC Scopus subject areas

  • General Materials Science

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