Oxygen defective bimodal porous Ni-CeO2−x-MgO-Al2O3 catalyst with multi-void spherical structure for CO2 reforming of CH4

“…High-performance catalysts for DRM have been developed for high syngas productivity and reaction stability. 10–14 To date, Ni-based nanocatalysts have been extensively studied and have demonstrated the best performance based on their high C–H bond-breaking ability. 15–17 However, it is still difficult to produce inexpensive active catalysts with a simple process that can achieve high stability against sintering and coking in high-temperature reactions.…”

A new automated synthesis of a coke-resistant Cs-promoted Ni-supported nanocatalyst for sustainable dry reforming of methane

“…High-performance catalysts for DRM have been developed for high syngas productivity and reaction stability. 10–14 To date, Ni-based nanocatalysts have been extensively studied and have demonstrated the best performance based on their high C–H bond-breaking ability. 15–17 However, it is still difficult to produce inexpensive active catalysts with a simple process that can achieve high stability against sintering and coking in high-temperature reactions.…”

A new automated synthesis of a coke-resistant Cs-promoted Ni-supported nanocatalyst for sustainable dry reforming of methane

Effect of surface properties of Ni-MgO-Al2O3 catalyst for simultaneous H2 production and CO2 utilization using dry reforming of coke oven gas

Ultra-stable porous yolk-shell Ni catalysts for the steam reforming of methane with alkali poisoning