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四齿非手性 Fe(II)-配合物用于不对称催化时,为获得对映选择性需牺牲其结构的对称性。

Trading Symmetry for Stereoinduction in Tetradentate, non-C -Symmetric Fe(II)-Complexes for Asymmetric Catalysis.

机构信息

Fachbereich Chemie, Philipps-Universität Marburg, Hans-Meerwein-Strasse 4, 35043, Marburg, Germany.

出版信息

Chemistry. 2023 Jun 7;29(32):e202300267. doi: 10.1002/chem.202300267. Epub 2023 Apr 27.

Abstract

A series of stereogenic-at-metal iron complexes comprising a non-C -symmetric chiral topology is introduced and applied to asymmetric 3d-transition metal catalysis. The chiral iron(II) complexes are built from chiral tetradentate N4-ligands containing a proline-derived amino pyrrolidinyl backbone which controls the relative (cis-α coordination) and absolute metal-centered configuration (Λ vs. Δ). Two chloride ligands complement the octahedral coordination sphere. The modular composition of the tetradentate ligands facilitates the straightforward incorporation of different terminal coordinating heteroaromatic groups into the scaffold. The influence of various combinations was evaluated in an asymmetric ring contraction of isoxazoles to 2H-azirines revealing that a decrease of symmetry is beneficial for the stereoinduction to obtain chiral products in up to 99 % yield and with up to 92 % ee. Conveniently, iron catalysis is feasible under open flask conditions with the bench-stable dichloro complexes exhibiting high robustness towards oxidative or hydrolytic decomposition. The versatility of non-racemic 2H-azirines was subsequently showcased with the conversion into a variety of quaternary α-amino acid derivatives.

摘要

介绍了一系列包含非 C 轴对称手性拓扑结构的手性金属铁配合物,并将其应用于不对称 3d 过渡金属催化。手性铁(II)配合物由包含脯氨酸衍生的氨基吡咯烷基骨架的手性四齿 N4-配体构建,该骨架控制相对(顺-α 配位)和绝对金属中心构型(Λ 与 Δ)。两个氯离子配体补充了八面体配位球。四齿配体的模块化组成便于将不同的末端配位杂芳烃基团直接引入到支架中。在异恶唑的不对称环收缩反应中评估了各种组合的影响,结果表明对称性降低有利于立体诱导,以高达 99%的收率和高达 92%的对映体过量值获得手性产物。方便的是,铁催化在开瓶条件下是可行的,稳定的二氯配合物具有高的耐氧化性或水解性分解的稳健性。随后,通过将非外消旋 2H-氮丙啶转化为各种季铵 α-氨基酸衍生物,展示了非手性 2H-氮丙啶的多功能性。

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