Figure Abstract (IMAGE)

Dalian Institute of Chemical Physics, Chinese Academy Sciences

Figure Abstract

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Oxygen-Vacancy-Rich MgO/Ni@NiAlO catalyst was successfully fabricated via a MgO-assisted interface engineering, featuring abundant active oxygen vacancies (resistance to coking) and Ni/MgNiO2 interfaces (inhibiting Ni particles sintering), which achieved coke-free methane dry reforming and unprecedented stability at 600 °C.

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Chinese Journal of Catalysis

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