The development of azide migration reactions is a formidable challenge due to potential competition from side processes driven by the release of molecular nitrogen. Here, we show a novel neighbouring carbonyl group-as...The development of azide migration reactions is a formidable challenge due to potential competition from side processes driven by the release of molecular nitrogen. Here, we show a novel neighbouring carbonyl group-assisted sequential 1,2-azide and 1,4-oxygen migration reaction of α-vinyl azides for the efficient preparation of a range of α-azido ketones. This represents the first transformation of α-vinyl azides into α-azido ketones. Notable features of this method are its high efficiency, broad substrate scope, excellent functional group compatibility, and high yields. The computational studies gave a key insights into the regioselective 1,2-azide and 1,4-oxygen migrations assisted by the neighbouring carbonyl group. Further conversions into a variety of nitrogen-containing compounds demonstrated the synthetic utility of the α-azido ketone products. Preliminary mechanistic studies disclosed a novel reaction mechanism involving neighbouring carbonyl group-assisted sequential 1,2-azide and1,4-oxygen migrations.展开更多
基金the National Natural Science Foundation of China(21871043)the Department of Science and Technology of Jilin Province(20180101185JC,20190701012GH)the Fundamental Research Funds for the Central Universities(2412019ZD001).
文摘The development of azide migration reactions is a formidable challenge due to potential competition from side processes driven by the release of molecular nitrogen. Here, we show a novel neighbouring carbonyl group-assisted sequential 1,2-azide and 1,4-oxygen migration reaction of α-vinyl azides for the efficient preparation of a range of α-azido ketones. This represents the first transformation of α-vinyl azides into α-azido ketones. Notable features of this method are its high efficiency, broad substrate scope, excellent functional group compatibility, and high yields. The computational studies gave a key insights into the regioselective 1,2-azide and 1,4-oxygen migrations assisted by the neighbouring carbonyl group. Further conversions into a variety of nitrogen-containing compounds demonstrated the synthetic utility of the α-azido ketone products. Preliminary mechanistic studies disclosed a novel reaction mechanism involving neighbouring carbonyl group-assisted sequential 1,2-azide and1,4-oxygen migrations.
