钯催化碳硼烷交叉偶联反应中的非循环过程

Off-Cycle Processes in Pd-Catalyzed Cross-Coupling of Carboranes.

作者信息

Dziedzic Rafal M, Axtell Jonathan C, Rheingold Arnold L, Spokoyny Alexander M

机构信息

Department of Chemistry and Biochemistry, University of California, Los Angeles, 607 Charles E. Young Drive East, Los Angeles, CA 90095, United States.

Department of Chemistry and Biochemistry, University of California, San Diego, 9500 Gilman Drive, La Jolla, CA 92093, United States.

出版信息

Org Process Res Dev. 2019 Aug 16;23(8):1638-1645. doi: 10.1021/acs.oprd.9b00257. Epub 2019 Aug 5.

DOI:10.1021/acs.oprd.9b00257

PMID:33776400

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7996392/

Abstract

Off-cycle processes in catalytic reactions can dramatically influence the outcome of the chemical transformation and affect its yield, selectivity, rate, and product distribution. While the generation of off-cycle intermediates can complicate reaction coordinate analyses or hamper catalytic efficiency, the generation of such species may also open new routes to unique chemical products. Recently, we reported the Pd-mediated functionalization of carboranes with a range of O-, N-, and C-based nucleophiles. By utilizing a Pd-based catalytic system supported by a biaryl phosphine ligand developed by Buchwald and co-workers, we discovered an off-cycle isomerization process ("cage-walking") that generates four regioisomeric products from a single halogenated boron cluster isomer. Here we describe how several off-cycle processes affect the regioisomer yield and distribution during Pd-catalyzed tandem cage-walking/cross-coupling. In particular, tuning the transmetallation step in the catalytic cycle allowed us to incorporate the cage-walking process into Pd-catalyzed cross-coupling of sterically unencumbered substrates, including cyanide. This work demonstrates the feasibility of using tandem cage-walking/cross-coupling as a unique low-temperature method for producing regioisomers of mono-substituted carboranes.

摘要

催化反应中的非循环过程可显著影响化学转化的结果，并影响其产率、选择性、速率和产物分布。虽然非循环中间体的生成会使反应坐标分析复杂化或阻碍催化效率，但此类物种的生成也可能开辟通往独特化学产物的新途径。最近，我们报道了钯介导的碳硼烷与一系列基于氧、氮和碳的亲核试剂的官能化反应。通过利用由布赫瓦尔德及其同事开发的联芳基膦配体支持的钯基催化体系，我们发现了一种非循环异构化过程（“笼内游走”），该过程从单一卤化硼簇异构体生成四种区域异构体产物。在此，我们描述了几种非循环过程如何影响钯催化的串联笼内游走/交叉偶联过程中的区域异构体产率和分布。特别是，调节催化循环中的转金属化步骤使我们能够将笼内游走过程纳入钯催化的空间位阻较小的底物（包括氰化物）的交叉偶联反应中。这项工作证明了使用串联笼内游走/交叉偶联作为一种独特的低温方法来制备单取代碳硼烷区域异构体的可行性。

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