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1,2,3-苯并二氮杂硼烷的碱金属盐:后期官能化和金属络合的平台

Alkali metal salts of 1,2,3-benzodiazaborines: platforms for late-stage -functionalization and metal complexation.

作者信息

Wüst Leonie, Scheuring Lea, Wellnitz Tim, Radacki Krzysztof, Braunschweig Holger

机构信息

Institute for Inorganic Chemistry, Julius-Maximilians-Universität Würzburg Am Hubland 97074 Würzburg Germany

Institute for Sustainable Chemistry & Catalysis with Boron, Julius-Maximilians-Universität Würzburg Am Hubland 97074 Würzburg Germany.

出版信息

Chem Sci. 2025 Apr 25. doi: 10.1039/d5sc01395j.

DOI:10.1039/d5sc01395j
PMID:40336987
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12053222/
Abstract

The standard procedure for the preparation of benzoid 1,2,3-diazaborines (DABs) is the condensation of 2-formylphenyl boronic acid with a hydrazine. The choice of hydrazine derivative irreversibly predetermines the -substituent in most cases and is additionally limited by the availability and hazardous nature of the respective hydrazines. Options to subsequently modify the -substituent are scarce. Herein, we explore an approach to postsynthetic -functionalization isolable, nucleophilic DAB alkali metal amides. The structures of these metalated DABs were extensively studied, utilizing H DOSY NMR spectroscopy and XRD analysis. Subsequent reactivity studies of these unusual amides revealed an intricate, dualistic reactivity pattern. Upon treatment with mild electrophiles, the DAB amides react as -nucleophiles, facilitating the straightforward introduction of functional groups at the N position. Due to the incorporation of the second N atom, they can moreover serve as anionic diazo ligands for the formation of μ-DAB-bridging coinage metal complexes, which bear a striking resemblance to well-studied complexes with pyrazolato (pz) ligands. Overall, this work demonstrates how BN incorporation opens new avenues in ligand design and provides a valuable tool for post-synthetic modification of aryl DABs with organic and inorganic substrates.

摘要

制备苯并1,2,3 - 二氮杂硼烷(DABs)的标准方法是2 - 甲酰基苯硼酸与肼的缩合反应。在大多数情况下,肼衍生物的选择不可逆转地预先决定了α-取代基,并且还受到相应肼的可得性和危险性的限制。后续修饰α-取代基的方法很少。在此,我们探索了一种对可分离的亲核DAB碱金属酰胺进行合成后α-官能化的方法。利用1H DOSY NMR光谱和XRD分析对这些金属化DABs的结构进行了广泛研究。对这些不寻常酰胺的后续反应性研究揭示了一种复杂的二元反应模式。在用温和亲电试剂处理时,DAB酰胺作为α-亲核试剂反应,便于在N位直接引入官能团。由于引入了第二个N原子,它们还可以作为阴离子重氮配体用于形成μ-DAB桥连的货币金属配合物,这些配合物与用吡唑啉酮(pz)配体研究得很好的配合物有惊人的相似之处。总体而言,这项工作展示了BN的引入如何为配体设计开辟新途径,并为用有机和无机底物对芳基DABs进行合成后修饰提供了有价值的工具。

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