53601-57-3Relevant academic research and scientific papers
Synchronous double C-N bond formation via C-H activation for a novel synthetic route to phenazine
Seth, Kapileswar,Raha Roy, Sudipta,Chakraborti, Asit K.
supporting information, p. 922 - 925 (2016/01/16)
A novel synthetic strategy for phenazine formation is reported following self-coupling of anilines by Pd-Ag binary nanocluster-catalysed synchronous double C-N bond formation via non-radical mode of ortho-aryl C-H activation.
The palladium and copper contrast: A twist to products of different chemotypes and altered mechanistic pathways
Seth, Kapileswar,Roy, Sudipta Raha,Kumar, Asim,Chakraborti, Asit K.
, p. 2892 - 2896 (2016/05/24)
A novel contrast in palladium and copper catalysis is revealed to form products of different chemotypes resulting in a phenazine to azoarene twist through an altered mechanistic pathway (from non-radical C-H activation mode of C-N coupling to radical N-N coupling) during the oxidative self-coupling of anilines catalysed by Pd-Ag and Cu-Ag nanoclusters.
