An article Facile synthesis of a highly efficient Co/Cu@NC catalyst for base-free oxidation of alcohols to esters WOS:000536157700015 published article about SELECTIVE TRANSFER HYDROGENATION; ACTIVE-SITES; NANOPARTICLES; ESTERIFICATION; CO; ALDEHYDES; FE; NITROARENES; PERFORMANCE; COMPLEXES in [Jiang, Jiusheng; Li, Xiang; Du, Shengyu; Shi, Langchen; Jiang, Pingping; Zhang, Pingbo; Dong, Yuming; Leng, Yan] Jiangnan Univ, Sch Chem & Mat Engn, Lihu Rd 1800, Wuxi 214122, Jiangsu, Peoples R China in 2020.0, Cited 48.0. Safety of Methyl 3-phenyl-2-propenoate. The Name is Methyl 3-phenyl-2-propenoate. Through research, I have a further understanding and discovery of 103-26-4
The direct oxidation of alcohols to esters is an environmentally benign and cost-effective organic synthetic strategy, but it is still a great challenge to discover an economic, highly active, and long-term stable catalyst for efficient transformation of alcohols to esters under milder conditions. Herein, we developed cobalt and copper nanoparticle -co-decorated nitrogen-doped carbon catalysts (CoCu@NCn) through two steps of ball milling and calcination. It was found that CoCu@NCn could catalyze the oxidation of alcohols to esters effectively in the absence of basic additives. The catalytic activity was much higher than those of monometallic Co@NC2 and Cu@NC2 samples, and the catalyst can be conveniently recovered and quite steadily reused. Through a series of control experiments and characterizations, it is concluded that the remarkable catalytic performance of CoCu@NC2 was associated with the synergistic effect between the two metal components, the enhanced basic active sites and the active surface area.
About Methyl 3-phenyl-2-propenoate, If you have any questions, you can contact Jiang, JS; Li, X; Du, SY; Shi, LC; Jiang, PP; Zhang, PB; Dong, YM; Leng, Y or concate me.. Safety of Methyl 3-phenyl-2-propenoate
Reference:
Article; Weng, Shiue-Shien; Ke, Chih-Shueh; Chen, Fong-Kuang; Lyu, You-Fu; Lin, Guan-Ying; Tetrahedron; vol. 67; 9; (2011); p. 1640 – 1648;,
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