posted on 2017-02-28, 00:00authored byXiao-Bing Lan, Yinwu Li, Yan-Fang Li, Dong-Sheng Shen, Zhuofeng Ke, Feng-Shou Liu
To
achieve efficient palladium-catalyzed cross-coupling reaction
under mild reaction conditions with the flexible steric bulk strategy,
a series of Pd-PEPPSI (PEPPSI: pyridine-enhanced precatalyst preparation,
stabilization, and initiation) complexes C1–C6 were synthesized and characterized, in which unsymmetric
flexible steric bulk was introduced on the N-aryl
of ancenaphthyl skeleton. These well-defined palladium complexes were
found to be excellent precatalysts for Buchwald–Hartwig amination
of aryl chlorides with amines in air. The electronic effect of the
Pd-PEPPSI complexes and the effect of ancillary pyridine ligands were
evaluated, among which complex C3 exhibited the most
efficiency. It was demonstrated that the cross-coupling products were
obtained in excellent yields in the presence of 0.5–0.1 mol
% palladium loading. A wide range of aryl- and heteroaryl chlorides
as well as various amines were compatible. The oxidative addition
of aryl chlorides is revealed to be the rate-determining step in the
catalytic cycle. The catalytic activity can be enhanced by introducing
electron-donating groups to the Pd-PEPPSI complexes. This type of
Pd-PEPPSI precatalyst showed the most efficiency reported to date
for the challenging C–N cross-coupling reactions requiring
no anhydrous and inert atmosphere protections, suggesting flexible
steric bulk as a promising catalyst design strategy.