期刊
JOURNAL OF ORGANIC CHEMISTRY
卷 83, 期 2, 页码 561-570出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.joc.7b02249
关键词
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资金
- 973 Program [2012CB215305]
- NSFC [21702041, 21325208, 21402181, 21572212, 51402078]
- IPDFHCPST [2014FXCX006]
- CAS [KFJ-EW-STS-051, YZ201563]
- FRFCU
- PCSIRT
- Young Scholar Enhancement Foundation (Plan B) of Hefei University of Technology [JZ2016HGTB0711]
The recent Cu-catalyzed allylic substitution reaction between gem-diboryalkane and allyl electrophiles shows intriguing solvent and ligand-controlled regioselectivity. The a-alkylation product was obtained in DMF solvent, while y-alkylation product was obtained in dioxane solvent and the dioxane and NHC ligand situation. In the present study, density functional theory calculations have been used to investigate the reaction mechanism and origin of the regioselectivity. For both dioxane and DMF, gamma-alkylation undergoes successive oxidative addition (CH(2)Bpin trans to leaving group) and direct Cy-C reductive elimination. The aalkylation is found to undergo oxidative addition (CH(2)Bpin trans to leaving group), isomerization, and Ca-C reductive elimination rather than the previously proposed oxidative addition (CH(2)Bpin cis to the leaving group) and Ca-C reductive elimination. The gamma-alkylation and alpha-alkylation is, respectively, favorable for dioxane and DMF solvent, which is consistent with the gamma- and alpha-selectivity in experiment. The solvent interferes the isomerization step, thereby affects the relative facility of the alpha- and gamma-alkylation. Further investigation shows that intermediate formation promoted by solvent is the rate-determining step of the isomerization. The stronger electron-donating ability of DMF than dioxane facilitates the eta'-intermediate formation and finally results in the easier isomerization in DMF. For dioxane and NHC situation, in the presence of neutral NHC ligand, the -PO4Et2 group tightly coordinates with the Cu center after the oxidative addition, preventing the isomerization process. The regioselectivity is determined by the relative facility of the oxidative addition step. Therefore, the favorable oxidative addition (in which CH(2)Bpin trans to the leaving group) results in the facility of gamma-alkylation.
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