非典型C-F键与芳酰氯的选择性芳基化。

IF 20.2 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Nature chemistry Pub Date : 2025-10-03 DOI:10.1038/s41557-025-01962-1

Zhi Liu,Chaoyu Du,Jie Han,Xiaoliang Yang,Siyu Xia,Kai Liu,Chengjian Zhu,Weipeng Li,Jin Xie

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引用次数: 0

摘要

多氟芳烃中特定C-F键的选择性活化是过渡金属催化中的一个挑战。在这里，我们报道了光激发镍催化的多氟芳烃和芳酰氯之间的交叉亲电偶联，在锂盐的协同作用下，在氟芳烃的非典型C-F位点实现了高度选择性的芳基化。在33-94%的产率下得到了多种结构多样的含氟双芳基化合物，并具有良好的C-F区选择性。值得注意的是，所观察到的区域选择性是非典型的，并且补充了现有的方法，例如钯催化和可见光光氧化还原催化的去氟功能化反应。我们的机理研究和理论计算表明，锂盐可以与五氟苯和镍催化剂相互作用，有效地降低能量势垒并调节区域选择性。通过后期的合成应用和多个C-F键的连续功能化，我们的方法的合成多功能性得到了强调，这进一步证明了它在简洁地构建部分氟化和生物学上有趣的化合物方面的强大实用性。

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Selective arylation of atypical C-F bonds in polyfluoroarenes with aryl chlorides.

Selective activation of specific C-F bonds in polyfluoroarenes represents a challenge in transition metal catalysis. Here we report a photoexcited nickel-catalysed cross-electrophile coupling between polyfluoroarenes and aryl chlorides, achieving highly selective arylation at atypical C-F sites of fluoroarenes, facilitated by a synergistic lithium salt effect. A wide range of structurally diverse fluorine-containing biaryls are obtained in 33-94% yields with satisfying C-F regioselectivity. Notably, the observed regioselectivity is atypical and complements existing methodologies, such as palladium-catalysed and visible-light photoredox-catalysed defluorinative functionalization reactions. Our mechanistic studies and theoretical calculations suggest that the lithium salt could interact with both pentafluorobenzene and the Ni catalyst, effectively lowering the energy barrier and modulating the regioselectivity. The synthetic versatility of our approach is underscored by late-stage synthetic application and sequential functionalization of multiple C-F bonds, which further demonstrates its robust utility in concisely constructing partially fluorinated and biologically interesting compounds.

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来源期刊

Nature chemistry 化学-化学综合

CiteScore

29.60

自引率

1.40%

发文量

226

审稿时长

1.7 months

期刊介绍： Nature Chemistry is a monthly journal that publishes groundbreaking and significant research in all areas of chemistry. It covers traditional subjects such as analytical, inorganic, organic, and physical chemistry, as well as a wide range of other topics including catalysis, computational and theoretical chemistry, and environmental chemistry. The journal also features interdisciplinary research at the interface of chemistry with biology, materials science, nanotechnology, and physics. Manuscripts detailing such multidisciplinary work are encouraged, as long as the central theme pertains to chemistry. Aside from primary research, Nature Chemistry publishes review articles, news and views, research highlights from other journals, commentaries, book reviews, correspondence, and analysis of the broader chemical landscape. It also addresses crucial issues related to education, funding, policy, intellectual property, and the societal impact of chemistry. Nature Chemistry is dedicated to ensuring the highest standards of original research through a fair and rigorous review process. It offers authors maximum visibility for their papers, access to a broad readership, exceptional copy editing and production standards, rapid publication, and independence from academic societies and other vested interests. Overall, Nature Chemistry aims to be the authoritative voice of the global chemical community.