One-Pot Fe-Catalyzed Pheromone Synthesis Via C1-Homologation of Unsymmetrical α,ω-Dihalogenated Derivatives with an Even Number of Carbon Atoms

IF 2.5 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Organometallics Pub Date : 2024-09-24 DOI:10.1021/acs.organomet.4c0034610.1021/acs.organomet.4c00346

Adrien Tintar, Pablo Chourreu, Olivier Guerret, Eric Gayon and Guillaume Lefèvre*,

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Abstract

We report in this work the optimization of a one-pot, four-step coupling sequence allowing stereoselective formation of alkyl-alkenyl linkages under iron catalysis at a low 0.25% load starting from difunctionalized electrophiles. A key tandem C₁ homologation step followed by an iron-catalyzed Kumada alkyl-alkenyl cross-coupling is included in this sequence, allowing the direct obtention of an aliphatic nucleophile with an odd number of carbon atoms, bearing a terminal magnesium alkoxide function. The latter group acts as an in situ generated endogenous additive in the subsequent coupling step, bypassing the need for engineered ligands. Overall, this report affords a cheap and efficient way to generate odd-numbered coupling partners which usually request multistep preparation, along with their use in one-pot coupling syntheses using an Earth-abundant metal. Several applications to the obtention of targets of agrochemical interest are also described.

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通过碳原子数为偶数的非对称 α、ω-二卤代衍生物的 C1-同系物，实现铁催化的单锅费洛蒙合成反应

我们在这项工作中报告了对一锅四步偶联顺序的优化，该顺序允许在铁催化下以 0.25% 的低负载从二官能化亲电体开始立体选择性地形成烷基-烯基连接。该步骤包括一个关键的串联 C1 同源化步骤，然后是铁催化的 Kumada 烷基-烯基交叉偶联，从而可以直接获得具有奇数个碳原子的脂肪族亲核物，并带有末端氧化镁官能团。在随后的偶联步骤中，后一基团可作为原位生成的内源添加剂，从而避免了对工程配体的需求。总之，本报告提供了一种廉价、高效的方法来生成通常需要多步制备的奇数偶联剂，并将其用于使用地球富集金属的单锅偶联合成。报告还介绍了在获得农用化学品目标方面的一些应用。

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来源期刊

Organometallics 化学-无机化学与核化学

CiteScore

5.60

自引率

7.10%

发文量

382

审稿时长

1.7 months

期刊介绍： Organometallics is the flagship journal of organometallic chemistry and records progress in one of the most active fields of science, bridging organic and inorganic chemistry. The journal publishes Articles, Communications, Reviews, and Tutorials (instructional overviews) that depict research on the synthesis, structure, bonding, chemical reactivity, and reaction mechanisms for a variety of applications, including catalyst design and catalytic processes; main-group, transition-metal, and lanthanide and actinide metal chemistry; synthetic aspects of polymer science and materials science; and bioorganometallic chemistry.