Highly stable Cu catalyst embedded in N-doped carbon microsphere for hydrogenation of dimethyl oxalate to methyl glycolate
H Zhang, Y Song, S Wu, S Yin, J Zhao, J Ren - Applied Catalysis A …, 2024 - Elsevier
Cu catalyst often subjects to low stability due to chemical state transformation during carbon-
oxygen hydrogenation reaction. In the present work, the copper catalysts embedded in N …
oxygen hydrogenation reaction. In the present work, the copper catalysts embedded in N …
Study on the deactivation and regeneration mechanism of Cu-Al catalyst in the hydrogenation of diethyl oxalate
P Wu, C Ma, J Wu, L Ma, J Chen - Fuel, 2024 - Elsevier
The hydrotreating of dialkyl oxalate to ethylene glycol process as a representative
technology pathway for the efficient and clean utilization of coal has gained wide attention in …
technology pathway for the efficient and clean utilization of coal has gained wide attention in …
Development of Magnetizable, Nickel–Ferrite-Decorated Carbon Nanocomposites as Hydrogenation Catalyst for Aniline Synthesis
Catalysts with magnetic properties can be easily recovered from the reaction medium
without loss by using a magnetic field, which highly improves their applicability. To design …
without loss by using a magnetic field, which highly improves their applicability. To design …
Effect of Differences in Anchoring Sites on the Hydrogenation Performance of Diethyl Oxalate in Cu–Al Catalyzed Systems
P Wu, J Wu, L Ma, C Ma, J Chen - Catalysis Letters, 2024 - Springer
Aiming to optimize the product distribution of the Cu–Al catalytic system in the oxalate
hydrogenation reaction as a way to optimize and improve the product structure of the coal-to …
hydrogenation reaction as a way to optimize and improve the product structure of the coal-to …