Excessive fossil burning causes energy shortages and contributes to the environmental crisis. Light-driven thermocatalytic CO reduction by methane (CRM) provides an effective strategy to conquer these two global challenges. Ni-based catalysts have been developed as candidates for CRM that are comparable to the noble metal catalysts. However, they are prone to deactivation due to the thermodynamically inevitable coking side reactions. Herein, we reported a novel Co-Ni/SiO nanocomposite of Co cluster-modified Ni nanoparticles, which greatly enhance the catalytic durability for light-driven thermocatalytic CRM. It exhibits high production rates of H () and CO (, 22.8 and 26.7 mmol min g, respectively), and very high light-to-fuel efficiency () is achieved (26.8%). Co-Ni/SiO shows better catalytic durability than the referenced catalyst of Ni/SiO. Based on the experimental results of TG-MS, TEM, and HRTEM, we revealed the origin of the significantly enhanced light-driven thermocatalytic activity and durability as well as the novel photoactivation. It was discovered that the focused irradiation markedly reduces the apparent activation energy of CO on the Co-Ni/SiO nanocomposite, thus significantly enhancing the light-driven thermocatalytic activity.
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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11596596 | PMC |
http://dx.doi.org/10.3390/molecules29225338 | DOI Listing |
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