仔细阅读 发表于 2025-3-23 13:23:46
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Light-Enhanced Carbon Dioxide Reforming of Methane by Effective Plasmonic Coupling Effect of Pt andV-vis light illumination at mild temperatures to efficiently convert methane and carbon dioxide into valuable chemicals (H. and CO). Due to the effective plasmonic coupling effect of Pt and Au nanoparticles, the activation energies for CH4 conversion are reduced ~30% below thermal activation energie影响 发表于 2025-3-23 19:55:18
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Selective Photocatalytic Oxidation of Methane to Methanol with Molecular Oxygen over Nanometals/TiOent amounts of Pt, Pd, Au and Ag nanoparticles were investigated. It was found that the loading amount of cocatalysts played an important role for the production of methanol; both the yield and selectivity of methanol increased gradually with increasing the loading amount. In addition, reducing theG-spot 发表于 2025-3-24 06:32:34
,General Conclusion and Future Prospeªcts,n over nanometals/semiconductors photocatalysts, including photo-enhanced thermocatalytic SMR and CRM at low temperatures, and partial oxidation of methane with oxygen to liquid oxygenates at room temperature. Photo-thermocatalytic methane conversion shows high reaction rates and low activation ener公猪 发表于 2025-3-24 12:03:03
Book 2020pure water at room temperature with high yield and selectivity over nanometals and semiconductors (zinc oxide and titanium dioxide). These findings are a big stride toward methane conversion and inspire researchers to develop strategies for efficient and selective conversion of methane to high-value-added chemicals under mild conditions.易改变 发表于 2025-3-24 17:05:29
Direct Photocatalytic Oxidation of Methane to Liquid Oxygenates with Molecular Oxygen over Nanometa oxidation of methane to liquid oxygenates is a radical process where surface active oxygen (hole center, O.) of photo-excited ZnO plays the dominated role for the methane activation to methyl radicals.circumvent 发表于 2025-3-24 20:55:15
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Visible Light-Mediated Methane Activation for Steam Methane Reforming over Rh/TiO2 Catalysts Under e thermal process. Characterization results show an ultrafast separation of hot carriers excited from Rh at the Rh-TiO. interface, resulting in the formation of electron-deficient state of Rh. at surface for the successive CH. activation at low temperatures.