Multifunctional Catalysts Based on High-Entropy Transition Metal Alloys

Multifunctional Catalysts Based on High-Entropy Transition Metal Alloys

High-entropy alloys were produced by centrifugal self-propagating high-temperature synthesis and used as precursors for preparation of catalysts for CO and propane deep oxidation and CO 2 hydrogenation. The precursors were converted into catalysts by aluminum leaching and stabilization with hydrogen...

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Veröffentlicht in:International journal of self-propagating high-temperature synthesis 2024-09, Vol.33 (3), p.200-208
Hauptverfasser: Pugacheva, E. V., Zhuk, S. Ya, Bystrova, I. M., Romazeva, K. A., Ikornikov, D. M., Boyarchenko, O. D., Khomenko, N. Yu, Belousova, O. V., Sanin, V. N., Borshch, V. N.
Format: Artikel
Sprache:eng
Schlagworte:
Carbon dioxide
Carbon monoxide
Catalysts
Chemistry and Materials Science
Heat resistant alloys
High entropy alloys
Hydrogen peroxide
Leaching
Materials Science
Methanation
Oxidation
Precursors
Propane
Self propagating high temperature synthesis
Transition metal alloys
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Zusammenfassung:High-entropy alloys were produced by centrifugal self-propagating high-temperature synthesis and used as precursors for preparation of catalysts for CO and propane deep oxidation and CO 2 hydrogenation. The precursors were converted into catalysts by aluminum leaching and stabilization with hydrogen peroxide solution. Prepared FeCoNiCu, FeCoNiCuMo, FeCoNiCuMn, and FeCoNiCuCr catalysts were characterized by XRD, SEM/EDS, and BET methods and tested in the processes of deep oxidation of CO and propane and methanation of CO 2 . The highest CO 2 conversion, 50.6%, with methane selectivity of 77.5% was achieved on FeCoNiCu catalyst at 400°C. The best catalyst for the deep oxidation process was shown to be FeCoNiCuCr, on which the temperature of 100% CO conversion was 250°C and 100% conversion of propane was achieved at 450°C.
ISSN:1061-3862
1934-788X
DOI:10.3103/S1061386224700158