Geminal-atom catalysis for cross-coupling

Hai, Xiao; Zheng, Yang; Yu, Qi; Guo, Na; Xi, Shibo; Zhao, Xiaoxu; Mitchell, Sharon; Luo, Xiaohua; Tulus Merlich, Victor; Wang, Mu; Sheng, Xiaoyu; Ren, Longbin; Long, Xiangdong; Li, Jing; He, Peng; Lin, Huihui; Cui, Yige; Peng, Xinnan; Shi, Jiwei; Wu, Jie; Zhang, Chun; Zou, Ruqiang; Guillén Gosálbez, Gonzalo; Pérez-Ramírez, Javier; Koh, Ming Joo; Zhu, Ye; Lu, Jiong

doi:10.1038/s41586-023-06529-z

Geminal-atom catalysis for cross-coupling

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Author / Producer

Hai, Xiao

Zheng, Yang

Yu, Qi

Date

2023-10-26

Publication Type

Journal Article

ETH Bibliography

yes

METADATA ONLY

Abstract

Single-atom catalysts (SACs) have well-defined active sites, making them of potential interest for organic synthesis 1–4. However, the architecture of these mononuclear metal species stabilized on solid supports may not be optimal for catalysing complex molecular transformations owing to restricted spatial environment and electronic quantum states 5,6. Here we report a class of heterogeneous geminal-atom catalysts (GACs), which pair single-atom sites in specific coordination and spatial proximity. Regularly separated nitrogen anchoring groups with delocalized π-bonding nature in a polymeric carbon nitride (PCN) host 7 permit the coordination of Cu geminal sites with a ground-state separation of about 4 Å at high metal density 8. The adaptable coordination of individual Cu sites in GACs enables a cooperative bridge-coupling pathway through dynamic Cu–Cu bonding for diverse C–X (X = C, N, O, S) cross-couplings with a low activation barrier. In situ characterization and quantum-theoretical studies show that such a dynamic process for cross-coupling is triggered by the adsorption of two different reactants at geminal metal sites, rendering homo-coupling unfeasible. These intrinsic advantages of GACs enable the assembly of heterocycles with several coordination sites, sterically congested scaffolds and pharmaceuticals with highly specific and stable activity. Scale-up experiments and translation to continuous flow suggest broad applicability for the manufacturing of fine chemicals.

Permanent link

http://hdl.handle.net/20.500.11850/640305

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published

External links

https://doi.org/10.1038/s41586-023-06529-z north_east

Journal / series

Nature north_east

Volume

622 (7984)

Pages / Article No.

754 - 760

Publisher

Nature

Organisational unit

03871 - Pérez-Ramírez, Javier / Pérez-Ramírez, Javier check_circle

09655 - Guillén Gosálbez, Gonzalo / Guillén Gosálbez, Gonzalo check_circle

Funding

180544 - NCCR Catalysis (phase I) (SNF)

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Is supplemented by: https://doi.org/10.5281/zenodo.8277667

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