Pati Bedadyuti Vedvyas, Ghosh Asit, Yadav Komal, Banjare Shyam Kumar, Pandey Shalini, Lourderaj Upakarasamy, Ravikumar Ponneri C
School of Chemical Sciences, National Institute of Science Education and Research (NISER) Bhubaneswar, HBNI Jatani Khurda 752050 Odisha India
Chem Sci. 2022 Feb 8;13(9):2692-2700. doi: 10.1039/d1sc04780a. eCollection 2022 Mar 2.
The stereoselective synthesis of 1,3-enynes from 1,3-diynes is demonstrated by palladium-catalyzed selective C-C bond cleavage of cyclopropanol. Exclusive formation of mono-alkenylated adducts was achieved by eliminating the possibility of di-functionalization with high stereoselectivity. Indeed, this protocol worked very well with electronically and sterically diverse substrates. Several studies, including deuterium labeling experiments and intermolecular competitive experiments, were carried out to understand the mechanistic details. The atomic-level mechanism followed in the catalytic process was also validated using DFT calculations, and the rate-controlling states in the catalytic cycle were identified. Furthermore, preliminary mechanistic investigations with radical scavengers revealed the non-involvement of the radical pathway in this transformation.
通过钯催化的环丙醇选择性C-C键裂解,实现了从1,3 - 二炔立体选择性合成1,3 - 烯炔。通过消除双官能化的可能性并具有高立体选择性,实现了单烯基化加合物的专一形成。实际上,该方案在电子和空间结构多样的底物上都表现良好。进行了多项研究,包括氘标记实验和分子间竞争实验,以了解其机理细节。催化过程中遵循的原子水平机理也通过密度泛函理论(DFT)计算得到验证,并确定了催化循环中的速率控制状态。此外,用自由基清除剂进行的初步机理研究表明,该转化过程中不涉及自由基途径。
