Chen-Feng Cao scite author profile

In this study, a CeO2 and BN hybrid-supported Ni catalyst (Ni/CeO2–BN) was developed for efficient NH3-to-H2 conversion. By adding BN to Ni/CeO2 as an additional support material, there is increased spatial distribution of Ni nanoparticles, lessening the common problem of Ni aggregation on oxide supports. More importantly, the introduction of BN enriches oxygen vacancies and raises Ce3+ concentration, leading to enhanced electron transfer from the support to Ni. The electron-rich Ni species promote NH3 activation as well as the combination of surface N atoms for N2 desorption, ultimately boosting NH3 decomposition. The 5 wt %Ni/CeO2–BN catalyst shows robust activity for NH3 conversion with a H2 yield of approximately 516 mmol gNi –1 min–1 at 600 °C. This study provides a universal strategy to boost the catalytic performance of metal/oxide catalysts by adding a second support material, which is a simple but effective way to produce efficient catalysts for a diversity of energy-conversion systems.

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Carbon support surface effects in the catalytic performance of Ba-promoted Ru catalyst for ammonia synthesis

Lin

Guo

Cao

et al. 2018

Catalysis Today

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Engineering of Ce3+-O-Ni structures enriched with oxygen vacancies via Zr doping for effective generation of hydrogen from ammonia

Kai

Cao

Zhou

et al. 2021

Chemical Engineering Science

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Electronic metal-support interaction enhanced ammonia decomposition efficiency of perovskite oxide supported ruthenium

Cao

Kai

Zhou

et al. 2022

Chemical Engineering Science

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Chen-Feng Cao

Spatial Confinement of Electron-Rich Ni Nanoparticles for Efficient Ammonia Decomposition to Hydrogen Production

Carbon support surface effects in the catalytic performance of Ba-promoted Ru catalyst for ammonia synthesis

Engineering of Ce3+-O-Ni structures enriched with oxygen vacancies via Zr doping for effective generation of hydrogen from ammonia

Electronic metal-support interaction enhanced ammonia decomposition efficiency of perovskite oxide supported ruthenium

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