Yuya Mukainakano scite author profile

Pd-Ni bimetallic catalysts prepared by co-impregnation and sequential impregnation methods were compared in the catalytic performance in oxidative steam reforming of methane. The sequential impregnation was more effective to the suppression of hot spot formation. According to the structural analysis by in-situ quick-scanning X-ray absorption fine structure (QXAFS) during the temperature programmed reduction, the sequential impregnation method gave the bimetallic particles with higher Pd surface composition because of the low possibility of the Pd-Ni bond formation. Higher surface composition of Pd with higher reducibility than Ni is connected to the enhancement of the catalyst reducibility and the suppression of the hot spot formation. .

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Yuya Mukainakano

Surface modification of Ni catalysts with trace Pt for oxidative steam reforming of methane

Surface modification of Ni catalysts with trace Pd and Rh for oxidative steam reforming of methane

Temperature profile of catalyst bed during oxidative steam reforming of methane over Pt-Ni bimetallic catalysts

Additive effect of noble metals on NiO-MgO solid solution in oxidative steam reforming of methane under atmospheric and pressurized conditions

Catalytic performance and QXAFS analysis of Ni catalysts modified with Pd for oxidative steam reforming of methane

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