2 results match your criteria: "University of Science and Technology of China Hefei 230023 PR China.[Affiliation]"
Efficient CH oxidation to C1/C2 oxygenates over cluster-dispersing Rh decorated ZSM-5.
RSC Adv
January 2025
Laboratory of Clean Low-Carbon Energy, Department of Thermal Science and Energy Engineering, University of Science and Technology of China Hefei 230023 PR China.
Crafting highly dispersed active metal sites on catalysts is an optimal method for improving the catalytic reactivity and stability, as it would improve atomic utilization efficiency, enhance reactant adsorption and activation ability through unique geometric and electronic properties. In this study, two synthesis methods were employed (ammonia evaporation (AE) and the impregnation method (IM)) to load Rh species onto the ZSM-5 support in order to attain tunable dispersivity, during which a 1.25-fold increase in the total yield of liquid oxygenated products (32 433.
View Article and Find Full Text PDFDirect oxidation of methane to methanol using CuMoO.
RSC Adv
February 2023
Laboratory of Clean Low-Carbon Energy, University of Science and Technology of China Hefei 230023 PR China +86 0551 63600786 +86 0551 63600786.
Article Synopsis
- Upgrading methane to methanol not only helps reduce greenhouse gases but also provides essential materials for industrial use.
- Current research mainly focuses on zeolite systems, making it challenging to develop effective metal oxide catalysts for methanol production.
- This paper presents a new Cu/MoO catalyst synthesized through impregnation methods, achieving a high yield of methanol at 600 °C and confirming the formation of an active site, CuMoO, through various characterization techniques.