Dual Active Sites on Cu/Cu2O Heterostructures for the Cascade Electrocatalytic Synthesis of Amino Acids

Dual Active Sites on Cu/Cu2O Heterostructures for the Cascade Electrocatalytic Synthesis of Amino Acids

Hello everyone, today I would like to share an article published in the Journal of the American Chemical Society, titled Dual Active Sites on Cu/Cu2O Heterostructures for the Cascade Electrocatalytic Synthesis of Amino Acids. The corresponding author of the article is Professor Jianlin Shi from the Shanghai Institute of Ceramics, Chinese Academy of Sciences. Abstract … Read more

JACS: Dual Active Cu Sites for Cascade Electrocatalytic C-N Coupling to Synthesize Amino Acids

JACS: Dual Active Cu Sites for Cascade Electrocatalytic C-N Coupling to Synthesize Amino Acids

Organic Electrocatalysis QQ Group: 692419836 Research Background Amino acids are the basic building blocks of living organisms and have wide applications in food, pharmaceuticals, and the chemical industry. Traditional methods for amino acid synthesis mainly include biological fermentation and chemical synthesis. While biological fermentation is environmentally friendly, it is costly and has a complex purification … Read more

C-N Coupling of Brominated Heteroaromatic Compounds Catalyzed by Ni

C-N Coupling of Brominated Heteroaromatic Compounds Catalyzed by Ni

[OL]Ni Catalyzed C-N Coupling of Brominated Heteroaromatic Compounds Introduction Constructing C-N bonds is generally more challenging than constructing C-C bonds. After all, the Buchwald-Hartwig coupling is not effective for all substrates, especially for certain heterocycles and substrates containing active hydrogens, which can easily complex with the catalyst and lead to no reaction. In contrast, usingSuzuki … Read more