摘要
A theoretical study is carried out on Gaunt's palladium-catalyzed selective C(sp3)-H activation of unprotected aliphatic amines. In this reaction, the methyl group is proposed to be activated through a four-membered cyclometallation pathway even though an ethyl group is present in the substrate. Our calculation shows that the methyl and ethyl activation processes proceed in nitrogen-atom-directed pathway rather than carbonyl-directed one. More important, methyl activation is more favorable than ethyl activation with nitrogen atom as the directing group. Further studies on the structural parameters show that the lactone structure in cyclic substrate is the origin of the selective methyl activation. When the lactone moiety is changed to ketone, ether or alkyl, the selectivity could be reversed so that the ethyl activation becomes more favorable. This result validates the pro- oosal that lactone structure is key to selective methyl activation.
A theoretical study is carried out on Gaunt’s palladium-catalyzed selective C(sp3)–H activation of unprotected aliphatic amines.In this reaction,the methyl group is proposed to be activated through a four-membered cyclometallation pathway even though an ethyl group is present in the substrate.Our calculation shows that the methyl and ethyl activation processes proceed in nitrogen-atom-directed pathway rather than carbonyl-directed one.More important,methyl activation is more favorable than ethyl activation with nitrogen atom as the directing group.Further studies on the structural parameters show that the lactone structure in cyclic substrate is the origin of the selective methyl activation.When the lactone moiety is changed to ketone,ether or alkyl,the selectivity could be reversed so that the ethyl activation becomes more favorable.This result validates the proposal that lactone structure is key to selective methyl activation.
基金
supported by the National Natural Science Foundation of China(21325208,21172209,21361140372,21202006)
the National Basic Research Program of China(2012CB215306)
Financial Resources Federal Credit Union(WK2060190025,WK2060190040,FRF-TP-14-015A2)
Chinese Academy of Sciences(KJCX2-EW-J02)
Program for Changjiang Scholars and Innovative Research Team and the supercomputer center of Shanghai and USTC
