Bolin Han scite author profile

Calcination plays an important role in obtaining highperformance catalysts for heterogeneous reactions. In this work, the effect of calcination temperature on the performance of the Ni@SiO 2 catalyst in the methane dry reforming reaction was investigated. The calcination temperature from 823 to 1223 K led to different sizes of Ni nanoparticles and strengths of metal−support interactions in the catalysts, which consequently affected the performance of the reforming reaction. The highest performance was neither achieved over Ni@SiO 2 -T (T = 823 and 923 K) catalysts with small Ni sizes and weak metal−support interactions nor gained over Ni@ SiO 2 -T (T = 1123 and 1223 K) catalysts with big Ni sizes and strong metal− support interactions, while it was obtained over the Ni@SiO 2 -1023 catalyst with intermediate Ni size and intermediate metal− support interactions. The volcanic relationship between the catalytic performance and catalyst calcination temperature was assigned to both the Ni size effect and metal−support interaction that their combination significantly influenced the performance of the methane dry reforming reaction. The combination strategy may provide a possible optimization approach for other heterogeneous catalytic reactions.

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CO2 reforming with methane reaction over Ni@SiO2 catalysts coupled by size effect and metal-support interaction

Zhang

Wang

Zhu

et al. 2019

Fuel

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Performance enhancement of methane dry reforming reaction for syngas production over Ir/Ce0.9La0.1O2-nanorods catalysts

Wang

Zhang

et al. 2020

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Embedded Ni catalysts in Ni-O-Ce solid solution for stable hydrogen production from ethanol steam reforming reaction

Wang

Zhang

Deng

et al. 2019

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Bolin Han

CO 2 reforming with methane over small-sized Ni@SiO 2 catalysts with unique features of sintering-free and low carbon

Effect of Calcination Temperature on the Performance of the Ni@SiO₂ Catalyst in Methane Dry Reforming

CO2 reforming with methane reaction over Ni@SiO2 catalysts coupled by size effect and metal-support interaction

Performance enhancement of methane dry reforming reaction for syngas production over Ir/Ce0.9La0.1O2-nanorods catalysts

Embedded Ni catalysts in Ni-O-Ce solid solution for stable hydrogen production from ethanol steam reforming reaction

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Bolin Han

CO 2 reforming with methane over small-sized Ni@SiO 2 catalysts with unique features of sintering-free and low carbon

Effect of Calcination Temperature on the Performance of the Ni@SiO2 Catalyst in Methane Dry Reforming

CO2 reforming with methane reaction over Ni@SiO2 catalysts coupled by size effect and metal-support interaction

Performance enhancement of methane dry reforming reaction for syngas production over Ir/Ce0.9La0.1O2-nanorods catalysts

Embedded Ni catalysts in Ni-O-Ce solid solution for stable hydrogen production from ethanol steam reforming reaction

Contact Info

Product

Resources

About

Effect of Calcination Temperature on the Performance of the Ni@SiO₂ Catalyst in Methane Dry Reforming