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Effects of catalyst preparation methods on the performance of La2MMnO6 (M=Co, Ni) double perovskites in catalytic combustion of propane

  • Catalysis, Reaction Engineering
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Abstract

La2MMnO6 (M=Co, Ni) dual perovskite oxides were synthesized by sol-gel and gel-combustion methods and tested for the total oxidation of propane. The synthesized catalysts were characterized by TPR, XRD, ICP, SEM, TEM, H2-TPR and O2-TPD techniques. The preparation method had a significant effect on the physicochemical properties of samples. The XRD spectra resulting from the synthesized samples revealed the formation of single-phase perovskite structure. The largest BET specific surface area related to the La2NiMnO6 perovskite synthesized by the gel-combustion method was obtained as 35 m2g−1 after calcination at 500 °C. Based on the findings, the catalysts synthesized by the gel-combustion method showed an increase in specific surface area, oxygen capacity, reducibility and oxygen mobility compared to those synthesized by the sol-gel method. Accordingly, these catalysts revealed a better performance. The acquired results also showed that the presence of Ni improved the catalytic activity compared to Co. The La2NiMnO6 perovskite synthesized by the gel-combustion method with the T90 equal to 415 °C was found to be the most active catalyst, while the La2CoMnO6 double perovskite synthesized by the sol-gel method with the T90 equal to 474 °C demonstrated the lowest activity.

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Authors and Affiliations

  1. Department of Chemical Engineering, Mahshahr Branch, Islamic Azad University, Mahshahr, Iran

    Hamidreza Roozbahani, Sarah Maghsoodi, Behrouz Raei, Amirhossein Shahbazi Kootenaei & Zoha Azizi

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  1. Hamidreza Roozbahani
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  2. Sarah Maghsoodi
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  3. Behrouz Raei
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  4. Amirhossein Shahbazi Kootenaei
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  5. Zoha Azizi
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Correspondence to Sarah Maghsoodi.

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Roozbahani, H., Maghsoodi, S., Raei, B. et al. Effects of catalyst preparation methods on the performance of La2MMnO6 (M=Co, Ni) double perovskites in catalytic combustion of propane. Korean J. Chem. Eng. 39, 586–595 (2022). https://doi.org/10.1007/s11814-021-0930-1

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  • DOI: https://doi.org/10.1007/s11814-021-0930-1

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