Marina Armengol-Profitós scite author profile

Ni-Fe nanocatalysts supported on CeO 2 have been prepared for the catalysis of methane steam reforming (MSR) aiming for coke-resistant noble metal-free catalysts. The catalysts have been synthesized by traditional incipient wetness impregnation as well as dry ball milling, a green and more sustainable preparation method. The impact of the synthesis method on the catalytic performance and the catalysts' nanostructure has been investigated. The influence of Fe addition has been addressed as well. The reducibility and the electronic and crystalline structure of Ni and Ni-Fe mono-and bimetallic catalysts have been characterized by temperature programmed reduction (H 2 -TPR), in situ synchrotron X-ray diffraction (SXRD), X-ray photoelectron spectroscopy (XPS), and Raman spectroscopy. Their catalytic activity was tested between 700 and 950 °C at 108 L g cat −1 h −1 and with the reactant flow varying between 54 and 415 L g cat −1 h −1 at 700 °C. Hydrogen production rates of 67 mol g met −1 h −1 have been achieved. The performance of the ball-milled Fe 0.1 Ni 0.9 /CeO 2 catalyst was similar to that of Ni/CeO 2 at high temperatures, but Raman spectroscopy revealed a higher amount of highly defective carbon on the surface of Ni-Fe nanocatalysts. The reorganization of the surface under MSR of the ball-milled NiFe/CeO 2 has been monitored by in situ near-ambient pressure XPS experiments, where a strong reorganization of the Ni-Fe nanoparticles with segregation of Fe toward the surface has been observed. Despite the catalytic activity being lower in the low-temperature regime, Fe addition for the milled nanocatalyst increased the coke resistance and could be an efficient alternative to industrial Ni/Al 2 O 3 catalysts.

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Marina Armengol-Profitós

Enhanced photoproduction of hydrogen on Pd/TiO2 prepared by mechanochemistry

Bimetallic NiFe Nanoparticles Supported on CeO₂ as Catalysts for Methane Steam Reforming

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Marina Armengol-Profitós

Enhanced photoproduction of hydrogen on Pd/TiO2 prepared by mechanochemistry

Bimetallic NiFe Nanoparticles Supported on CeO2 as Catalysts for Methane Steam Reforming

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Product

Resources

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Bimetallic NiFe Nanoparticles Supported on CeO₂ as Catalysts for Methane Steam Reforming