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Abstract
The direct functionalization of unactivated hydrocarbons remains a significant challenge in modern chemistry. In this study, we demonstrate that a simple ruthenium complex featuring a chelating tBuPN ligand can mediate the nucleophilic aromatic substitution of hydrogen (SNArH) in benzene. Key intermediates were kinetically trapped in low-temperature NMR experiments, providing crucial insights into the reaction mechanism. These findings are further supported by isotopic labeling and comprehensive DFT studies. The data shows that the substitution proceeds via an unprecedented mechanism, involving reversible rear-side nucleophilic addition of the exogenous nucleophile to the ruthenium-bound benzene, followed by an intramolecular hydride migration facilitated by deprotonation of tBuPN ligand. The broad range of nucleophiles amenable to this reaction, including classical non-nucleophilic bases, showcases the versatility of this reaction and makes it a promising candidate for further developments in the area of SNArH.
Supplementary materials
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SI Thermochemistry data
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SI Thermochemistry data
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SNArH_ESI
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Electronic supporting information
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SI_xyz_coordinates
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SI_xyz_coordinates
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