425608-17-9Relevant academic research and scientific papers
Rapid construction of C4-substituted phenanthridinones through palladium-catalyzed domino N-arylation/aryl-aryl coupling process
Liu, Chao,Song, Liangliang,Van Meervelt, Luc,Van der Eycken, Erik V.
, (2021/08/05)
An excellent chemo- and regioselective palladium-catalyzed cascade intermolecular N-arylation/aryl-aryl coupling process has been developed. Employing Pd(TFA)2, PCy3?HBF4, K2CO3 and 1,4-dioxane in an oil bath at 100°C for 12 h, diverse C4-substituted phenanthridinones are synthesized from o-bromobenzamides in 42-92% yield. Broad substrate scope and excellent functional group tolerance are observed. The synthetic utility of this method is illustrated by the further derivatization to prepare multiple-substituted phenanthridinones in 30-75% yield.
Practical Synthesis of Phenanthridinones by Palladium-Catalyzed One-Pot C-C and C-N Coupling Reaction: Extending the Substrate Scope to o-Chlorobenzamides
Liu, Hailong,Han, Weibiao,Li, Chun,Ma, Zhiyong,Li, Ruixiang,Zheng, Xueli,Fu, Haiyan,Chen, Hua
supporting information, p. 389 - 393 (2016/02/18)
A highly efficient construction of phenanthridinone derivatives from o-halobenzamides was developed by using a phosphine-free palladium catalyst in N,N-dimethylacetamide. The domino reaction proceeds through a sequential C-C and C-N bond-formation process in one pot. This protocol exhibits broad substrate scope and affords a series of phenanthridinones in up to 93 % yield. Importantly, the protocol could also be applied for the less reactive o-chlorobenzamides. The approach constitutes the first example of the synthesis of phenanthridinones from this kind of substrate. Moreover, the success of a gram-scale reaction demonstrated that this operationally simple process is scalable.
