Palladium-catalyzed allene synthesis enabled by β-hydrogen elimination from sp2-carbon.
Ge ZhangYi-Kang SongYinlong GuoZe-Jian XueMeng-Yao LiGui-Shan ZhangBin-Bin ZhuJing WeiChunsen LiChen-Guo FengGuo-Qiang LinPublished in: Nature communications (2021)
The rational design based on a deep understanding of the present reaction mechanism is an important, viable approach to discover new organic transformations. β-Hydrogen elimination from palladium complexes is a fundamental reaction in palladium catalysis. Normally, the eliminated β-hydrogen has to be attached to a sp3-carbon. We envision that the hydrogen elimination from sp2-carbon is possible by using thoroughly designed reaction systems, which may offer a new strategy for the preparation of allenes. Here, we describe a palladium-catalyzed cross-coupling of 2,2-diarylvinyl bromides and diazo compounds, where a β-vinylic hydrogen elimination from allylic palladium intermediate is proposed to be the key step. Both aryl diazo carbonyl compounds and N-tosylhydrazones are competent carbene precursors in this reaction. The reaction mechanism is explored by control experiments, KIE studies and DFT calculations.