A novel bidentate α-amino oxazolinyl directing group has been developed. Different from previous directing groups, this newly designed directing group was easily prepared from amino acids and modified in structure. This auxiliary preferentially effects functionalization at secondary C(sp(3) )-H bonds, rather than at aryl C(sp(2) )-H bonds. The diastereoselectivity of direct arylation between geminal secondary C(sp(3) )-H bonds in linear molecules has also been realized for the first time with a chiral directing group by remote chirality relay. Two diastereoisomers are produced with the same chiral source by changing the substituents of substrates and aryl halides.
An efficient and direct carbonylation of aminoquinoline
benzamides
has been developed using abundant and inexpensive Ni(OAc)2·4H2O as the catalyst and carbon monoxide as a cost-efficient
C1 building block. This process features good functional-group tolerance
and can be conducted on gram scale. The directing group can be easily
removed under mild conditions.
This study reports a carbonylative acetylation for the
synthesis
of N-phenyl-N-(pyridin-2-yl)acetamides
using N,N-dimethylformamide (DMF)
as a methyl source and CO as a carbonyl source. Interestingly, dimethyl
sulfoxide (DMSO) can be also used as a methyl source when using only
DMSO as the solvent. Mechanistic studies using DMSO-d
6 revealed that the methyl group was derived from the
methyl group of DMF instead of DMSO when using DMF and DMSO as a mixed
solvent. These results indicated that DMF was a preferential methyl
source.
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