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Pd-based catalysts promoted by hierarchical porous AlO and ZnO microsphere supports/coatings for ethyl acetate highly active and stable destruction. | LitMetric

AI Article Synopsis

  • This study focuses on creating efficient materials to purify volatile organic compounds (VOCs), specifically through the synthesis of hierarchical porous AlO and ZnO microspheres using a hydrothermal method.
  • The newly developed Pd/AlO-pm catalyst shows significantly better activity and stability for ethyl acetate degradation compared to traditional counterparts, with impressive turnover frequency (TOF) and long-term performance in various conditions.
  • The reaction mechanism involves both palladium and Brønsted acid sites interacting with ethyl acetate, resulting in the formation of different by-products, highlighting the advantages of enhanced Pd dispersion for achieving better catalytic results.

Article Abstract

Developing economical and active materials is of great significance for VOC purification. Here, hierarchical porous AlO and ZnO microspheres (AlO-pm and ZnO-pm) were synthesized by a facile hydrothermal strategy. The urchin-like AlO-pm and flower-like ZnO-pm possess high specific surface area (especially; external surface area) obviously boost the dispersion of Pd with 29.3 % and 30.1 % over Pd/AlO-pm and Pd/ZnO-pm, respectively, over 3.4 times higher than those of commercial AlO- and ZnO-supported counterparts. Pd/AlO-pm possesses excellent activity and CO yield in ethyl acetate (EA) degradation, with TOF reaches 7.76 × 10 s at 160 °C under GHSV of 50,000 h. Moreover, Pd/AlO-pm exhibits satisfied performance in EA-contained binary VOCs oxidation and has high long-term stability under both dry and humid conditions. Both Pd sites and Brønsted acid sites participated in reaction process and initially react with EA to form ethylene and ethanol, respectively. Larger amount Brønsted acid sites over Pd/AlO-pm promote ethanol formation and C-C cleavage, resulting in different CO yields and EA activation mechanisms. The coating greatly enhances Pd dispersion over Pd supported monolithic catalyst, endowing its desired activity and stability even with a much lower Pd loading. This work promotes the potential application of noble-metal-based monolithic materials in VOC degradation.

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Source
http://dx.doi.org/10.1016/j.jhazmat.2020.123281DOI Listing

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