调节环庚三烯基铑卡宾的逃逸通道以形成半环戊二烯并环辛烯。

Modulating Escape Channels of Cycloheptatrienyl Rhodium Carbenes To Form Semibullvalene.

作者信息

Laconsay Croix J, Tantillo Dean J

机构信息

Department of Chemistry, University of California─Davis, Davis, California 95616, United States.

出版信息

J Org Chem. 2023 Jul 7;88(13):9056-9065. doi: 10.1021/acs.joc.3c00735. Epub 2023 Jun 19.

DOI:10.1021/acs.joc.3c00735

PMID:37335974

Abstract

We describe the various escape channels available to dirhodium carbene intermediates from cycloheptatrienyl diazo compounds located with density functional theory. An intramolecular cyclopropanation would, in principle, provide a new route to semibullvalenes (SBVs). A detailed exploration of the potential energy surface reveals that methylating carbon-7 suppresses a competing β-hydride migration pathway to heptafulvene products, giving SBV formation a reasonable chance. During our explorations, we additionally discovered unusual spirononatriene, spironorcaradiene, and metal-stabilized 9-barbaralyl cation structures as local minima.

摘要

我们描述了通过密度泛函理论定位的环庚三烯基重氮化合物中双铑卡宾中间体可用的各种逃逸通道。原则上，分子内环丙烷化将为半富烯（SBV）提供一条新途径。对势能面的详细探索表明，甲基化碳-7抑制了向庚富烯产物的竞争性β-氢化物迁移途径，使SBV形成有合理的机会。在我们的探索过程中，我们还发现了不寻常的螺壬三烯、螺环庚二烯和金属稳定的9-巴豆基阳离子结构作为局部极小值。