Promotional effects of Pt–CeO₂ fabricated by hydrothermal leaching of Al₇₈Ce_22-xPt_x (x = 0, 0.1) intermetallic compound for efficient catalytic CO oxidation

Hydrothermal leaching is one of the leaching processes to remove Aluminum (Al) in Al-based intermetallic compounds (ICS) to obtain a better catalytic performance. Herein, a facile method is introduced for hydrothermal leaching of Al₇₈Ce_22-xPt_x (at%; x ​= ​0, 0.1) ICS to obtain CeO₂ and Pt–CeO₂ catalysts for CO conversion. Successively, 95% and 94% of Al were leached out after hydrothermal leaching of Al₇₈Ce₂₂ and Al₇₈Ce_21.9Pt_0.1 ingots. The hydrothermal leaching of ingots led to irregular structure transformed into a rod-like structure after hydrothermal leaching of ingots. The existence of metallic Pt and the effect of hydrothermal leaching resulted in better catalytic CO conversion for Al₇₈Ce_21.9Pt_0.1 after hydrothermal leaching. The interaction between Pt–O–Ce and active sites led to good catalytic performance for Al₇₈Ce_21.9Pt_0.1 after hydrothermal leaching. It was hypothesized that the reaction followed the Mars-van Krevelen (M-vK) mechanism. Further, Al₇₈Ce_21.9Pt_0.1 after hydrothermal leaching possessed higher activation energy (43 ​kJ/mol) than other samples, which caused excellent catalytic performance. Besides, good thermal stability after catalysis for all the samples was affirmed by XRD analysis.