4.6 Article

DFT-Guided Mechanistic Insights into Chemodivergence: A Mixed Explicit-Implicit Solvent Description to Dictate the Chemoselectivity

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JOURNAL OF PHYSICAL CHEMISTRY A
卷 127, 期 48, 页码 10068-10074

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AMER CHEMICAL SOC
DOI: 10.1021/acs.jpca.3c04458

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This study investigates the solvent-dependent chemodivergence in the nitrile reduction reaction using density functional theory (DFT). The results reveal that a polar protic solvent, isopropanol, promotes the formation of secondary amines through proton hopping, while a nonpolar solvent, n-hexane, inhibits the reaction and leads to the formation of primary amines.
Herein we report a density functional theory (DFT)-guided mechanistic investigation of the nitrile reduction reaction, which exhibits a solvent-dependent chemodivergence. This study reveals an interesting mechanistic picture, highlighting the exact role of a protic solvent, isopropanol, in regulating the reaction outcome. The explicit solvent effect involving polar protic isopropanol favors imine metathesis by proton hopping through stepwise addition and elimination steps and thus produces a secondary amine as the final product. In contrast, the nonpolar solvent n-hexane is incapable of facilitating the proton migration and stops the solvent-assisted imine metathesis. As a result, only primary amines are obtained as the final product. This DFT study provides a recipe for the choice of solvents that can dictate chemoselectivity in product formation.

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