González-Pinardo Daniel, Bickelhaupt F Matthias, Fernández Israel
Departamento de Química Orgánica, Centro de Innovación en Química Avanzada (ORFEO-CINQA), Facultad de Ciencias Químicas, Universidad Complutense de Madrid Ciudad Universitaria 28040-Madrid Spain
Department of Chemistry and Pharmaceutical Sciences, AIMMS, Vrije Universiteit Amsterdam The Netherlands.
Chem Sci. 2024 Jul 8;15(31):12380-12387. doi: 10.1039/d4sc03176h. eCollection 2024 Aug 7.
Quantum chemical calculations were carried out to quantitatively understand the origin of the Felkin-Anh(-Eisenstein) model, widely used to rationalize the π-facial stereoselectivity in the nucleophilic addition reaction to carbonyl groups directly attached to a stereogenic center. To this end, the possible approaches of cyanide to both ()-2-phenylpropanal and ()-3-phenylbutan-2-one have been explored in detail. With the help of the activation strain model of reactivity and the energy decomposition analysis method, it is found that the preference for the Felkin-Anh addition is mainly dictated by steric factors which manifest in a less destabilizing strain-energy rather than, as traditionally considered, in a lower Pauli repulsion. In addition, other factors such as the more favorable electrostatic interactions also contribute to the preferred approach of the nucleophile. Our work, therefore, provides a different, more complete rationalization, based on quantitative analyses, of the origin of this seminal and highly useful concept in organic chemistry.
进行了量子化学计算,以定量理解费尔金-安(-艾森斯坦)模型的起源,该模型广泛用于解释直接连接到立体中心的羰基亲核加成反应中的π-面立体选择性。为此,详细研究了氰化物与()-2-苯基丙醛和()-3-苯基丁-2-酮的可能反应途径。借助反应性的活化应变模型和能量分解分析方法,发现费尔金-安加成的偏好主要由空间因素决定,这些因素表现为应变能的不稳定程度较低,而不是像传统认为的那样,由较低的泡利排斥作用决定。此外,其他因素,如更有利的静电相互作用,也有助于亲核试剂的优先反应途径。因此,我们的工作基于定量分析,为有机化学中这一开创性且非常有用的概念的起源提供了不同的、更完整的解释。
