吡啶的无过渡金属区域选择性膦酰化反应：范围与机理

Transition Metal-Free Regioselective Phosphonation of Pyridines: Scope and Mechanism.

作者信息

Quint Valentin, Van Nguyen Thi Hong, Mathieu Gary, Chelli Saloua, Breugst Martin, Lohier Jean-François, Gaumont Annie-Claude, Lakhdar Sami

机构信息

Normandie University, LCMT, ENSICAEN, UNICAEN, CNRS, 6, Boulevard Maréchal Juin, Caen 14000-France.

CNRS, Université Paul Sabatier, Laboratoire Hétérochimie Fondamentale et Appliquée (LHFA, UMR5069), 118 Route de Narbonne, 31062 Cedex 09 Toulouse, France.

出版信息

ACS Org Inorg Au. 2023 Feb 2;3(3):151-157. doi: 10.1021/acsorginorgau.2c00055. eCollection 2023 Jun 7.

DOI:10.1021/acsorginorgau.2c00055

PMID:37303502

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10251503/

Abstract

Regioselective phosphonation of pyridines is an interesting transformation in synthesis and medicinal chemistry. We report herein a metal-free approach enabling access to various 4-phosphonated pyridines. The method consists of simply activating the pyridine ring with a Lewis acid (BF·OEt) to facilitate the nucleophilic addition of a phosphine oxide anion. The formed sigma complex is subsequently oxidized with an organic oxidant (chloranil) to yield the desired adducts in good to excellent yields. We furthermore showed that access to C2-phosphoinated pyridines can be achieved in certain cases with strong Lewis basic phosphorus nucleophiles or with strong Lewis acidic pyridines. Both experimental and computational mechanistic investigations were undertaken and allowed us to understand the factors controlling the reactivity and selectivity of this reaction.

摘要

吡啶的区域选择性膦酰化反应在合成化学和药物化学领域是一种有趣的转化反应。本文报道了一种无金属方法，可用于制备各种4-膦酰化吡啶。该方法仅需用路易斯酸（BF·OEt）活化吡啶环，以促进氧化膦阴离子的亲核加成。随后，形成的σ配合物用有机氧化剂（四氯苯醌）氧化，以良好至优异的产率得到所需的加合物。我们还表明，在某些情况下，使用强路易斯碱性磷亲核试剂或强路易斯酸性吡啶可实现C2-膦酰化吡啶的合成。我们进行了实验和计算机理研究，从而使我们能够理解控制该反应的反应性和选择性的因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a205/10251503/fcfa0f10d3e9/gg2c00055_0006.jpg

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吡啶的无过渡金属区域选择性膦酰化反应：范围与机理

Transition Metal-Free Regioselective Phosphonation of Pyridines: Scope and Mechanism.

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