Cr-Zn/Ni-Containing Nanocomposites as Effective Magnetically Recoverable Catalysts for CO 2 Hydrogenation to Methanol: The Role of Metal Doping and Polymer Co-Support.

Autor: Sorokina, Svetlana A., Kuchkina, Nina V., Grigoriev, Maxim E., Bykov, Alexey V., Ratnikov, Andrey K., Doluda, Valentin Yu., Sulman, Mikhail G., Shifrina, Zinaida B.
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Zdroj: Catalysts (2073-4344); Jan2023, Vol. 13 Issue 1, p1, 18p
Abstrakt: CO2 hydrogenation to methanol is an important process that could solve the problem of emitted CO2 that contributes to environmental concern. Here we developed Cr-, Cr-Zn-, and Cr-Ni-containing nanocomposites based on a solid support (SiO2 or Al2O3) with embedded magnetic nanoparticles (NPs) and covered by a cross-linked pyridylphenylene polymer layer. The decomposition of Cr, Zn, and Ni precursors in the presence of supports containing magnetic oxide led to formation of amorphous metal oxides evenly distributed over the support-polymer space, together with the partial diffusion of metal species into magnetic NPs. We demonstrated the catalytic activity of Cr2O3 in the hydrogenation reaction of CO2 to methanol, which was further increased by 50% and 204% by incorporation of Ni and Zn species, respectively. The fine intermixing of metal species ensures an enhanced methanol productivity. Careful adjustment of constituent elements, e.g., catalytic metal, type of support, presence of magnetic NPs, and deposition of hydrophobic polymer layer contributes to the synergetic promotional effect required for activation of CO2 molecules as well. The results of catalytic recycle experiments revealed excellent stability of the catalysts due to protective role of hydrophobic polymer. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index
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