Changyi Jiang scite author profile

CeO2–ZrO2 (CZO) nanoparticles (NPs) have applications in many catalytic reactions, such as methane dry reforming, due to their oxygen cycling ability. Ni doping has been shown to improve the catalytic activity and produces active sites for the decomposition of methane. In this work, Ni:CZO NPs were synthesized via a two-step co-precipitation/molten salt synthesis to compare Ni distribution, oxygen vacancy concentration, and catalytic activity relative to a reference state-of-the-art catalyst prepared by a sol–gel-adsorptive deposition technique. To better understand the dispersion of Ni and oxygen vacancy formation in these materials, the Ni concentration, position, and reaction time were varied in the synthesis. X-ray diffraction (XRD) measurements show a homogeneous, cubic phase with little to no segregation of Ni/NiO. Catalytic activity measurements, performed via a differential scanning calorimetry (DSC)/thermogravimetric analysis (TGA) method, displayed a 5-fold increase in the activity per surface area with an order of magnitude decrease in the coking rate for the particles synthesized by the molten salt method. Additionally, this approach resulted in an order of magnitude increase in oxygen vacancies, which is attributed to the high dispersion of Ni2+ ions in the NP core. This ability of controlling the oxygen vacancies in the lattice is expected to impact other such systems, which utilize the substrate redox cyclability to drive conversion via, e.g., a Mars–van Krevelen mechanism.

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On the enhanced sulfur and coking tolerance of Ni-Co-rare earth oxide catalysts for the dry reforming of methane

Jiang

Loisel

Cullen

et al. 2021

Journal of Catalysis

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Rapid screening of ternary rare-earth – Transition metal catalysts for dry reforming of methane and characterization of final structures

Jiang

Akkullu

et al. 2019

Journal of Catalysis

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Changyi Jiang

Ophiolites of the Kunlun Mountains, China and their tectonic implications

OIB-like, heterogeneous mantle sources of Permian basaltic magmatism in the western Tarim Basin, NW China: Implications for a possible Permian large igneous province

Enhancing Ce_xZr_1–xO₂ Activity for Methane Dry Reforming Using Subsurface Ni Dopants

On the enhanced sulfur and coking tolerance of Ni-Co-rare earth oxide catalysts for the dry reforming of methane

Rapid screening of ternary rare-earth – Transition metal catalysts for dry reforming of methane and characterization of final structures

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Changyi Jiang

Ophiolites of the Kunlun Mountains, China and their tectonic implications

OIB-like, heterogeneous mantle sources of Permian basaltic magmatism in the western Tarim Basin, NW China: Implications for a possible Permian large igneous province

Enhancing CexZr1–xO2 Activity for Methane Dry Reforming Using Subsurface Ni Dopants

On the enhanced sulfur and coking tolerance of Ni-Co-rare earth oxide catalysts for the dry reforming of methane

Rapid screening of ternary rare-earth – Transition metal catalysts for dry reforming of methane and characterization of final structures

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Resources

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Enhancing Ce_xZr_1–xO₂ Activity for Methane Dry Reforming Using Subsurface Ni Dopants