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Abstract Well-dispersed and uniformly sized 5–84 nm Mo oxide and CoMo oxide nanoparticles were synthesized by varying the Mo and Co precursor concentrations. The water-gas shift (WGS) activity of sulfided Mo-based… Click to show full abstract
Abstract Well-dispersed and uniformly sized 5–84 nm Mo oxide and CoMo oxide nanoparticles were synthesized by varying the Mo and Co precursor concentrations. The water-gas shift (WGS) activity of sulfided Mo-based catalysts was found to increase with particle size and in the presence of Co. In particular, 84-nm CoMo-S nanoparticles exhibited 15 times higher effective CO consumption rate and 2.3 times higher turnover frequency (TOF) as compared to 5- nm Mo-S nanoparticles. The observed trends in size-dependent catalytic behavior correlated with the higher density of the proposed active sites present on larger (Co)Mo-S nanoparticles probed by CO chemisorption.
Journal Title: Catalysis Communications
Year Published: 2020
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