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Bimetallic [Co/K] hydrogen evolution catalyst for electrochemical terminal C-H functionalization

Sheng Zhang (), Lei Hong, Jiayi Feng, Mohan Wang, Junyuan Hu, Ying Zhang and Man-Bo Li ()
Additional contact information
Sheng Zhang: Anhui University
Lei Hong: Anhui University
Jiayi Feng: Anhui University
Mohan Wang: Anhui University
Junyuan Hu: Shandong University
Ying Zhang: Anhui University
Man-Bo Li: Anhui University

Nature Communications, 2025, vol. 16, issue 1, 1-10

Abstract: Abstract Discovering novel catalysts for hydrogen evolution reaction (HER) holds the potential to revolutionize the energy chemistry and unlock new tool for synthetic processes. Inspired by hydrogenases, we pair alkali metals with cobalt-Salen catalysts which allow the integration of naked base site into bimetallic HER catalysts. The incorporation of alkali metals (Na, K, Rb, Cs) significantly enhances HER activity. Among these, the [Co/K] system exhibits the highest HER catalytic efficiency (kobs ~ 31.4 s⁻¹), which is 9 times higher than the mononuclear analogue. Remarkably, this HER catalyst is repurposed for the terminal C(sp³)-H functionalization of N-allylimines with imine/aldehyde, a previously inaccessible transformation. Mechanistic studies reveal that the naked base site enables selective C-H activation via proton relay, overriding the inherent preference for Pinacol coupling. The electrochemical protocol features good functional group tolerance, and opens up a streamlined avenue for chiral pyrrolines, key precursors of the anti-cancer medicine Larotrectinib. More importantly, the alkali metal effect is rationalized through structural analysis, density functional theory (DFT) calculations, and control experiments.

Date: 2025
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DOI: 10.1038/s41467-025-63914-0

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