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Tunably strained metallacycles enable modular differentiation of aza-arene C–H bonds

Longlong Xi, Minyan Wang, Yong Liang, Yue Zhao and Zhuangzhi Shi ()
Additional contact information
Longlong Xi: Nanjing University
Minyan Wang: Nanjing University
Yong Liang: Nanjing University
Yue Zhao: Nanjing University
Zhuangzhi Shi: Nanjing University

Nature Communications, 2023, vol. 14, issue 1, 1-10

Abstract: Abstract The precise activation of C–H bonds will eventually provide chemists with transformative methods to access complex molecular architectures. Current approaches to selective C–H activation relying on directing groups are effective for the generation of five-membered, six-membered and even larger ring metallacycles but show narrow applicability to generate three- and four-membered rings bearing high ring strain. Furthermore, the identification of distinct small intermediates remains unsolved. Here, we developed a strategy to control the size of strained metallacycles in the rhodium-catalysed C−H activation of aza-arenes and applied this discovery to tunably incorporate the alkynes into their azine and benzene skeletons. By merging the rhodium catalyst with a bipyridine-type ligand, a three-membered metallacycle was obtained in the catalytic cycle, while utilizing an NHC ligand favours the generation of the four-membered metallacycle. The generality of this method was demonstrated with a range of aza-arenes, such as quinoline, benzo[f]quinolone, phenanthridine, 4,7-phenanthroline, 1,7-phenanthroline and acridine. Mechanistic studies revealed the origin of the ligand-controlled regiodivergence in the strained metallacycles.

Date: 2023
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DOI: 10.1038/s41467-023-39753-2

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