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Grignard Reagent-Catalyzed Hydroboration of Esters, Nitriles, and Imines.

Hyun Ji HanSuh Youn ParkSo Eun JeonJae Seok KwakJi Hye LeeAshok Kumar JaladiHyonseok HwangDuk Keun An
Published in: Molecules (Basel, Switzerland) (2023)
The reduction in esters, nitriles, and imines requires harsh conditions (highly reactive reagents, high temperatures, and pressures) or complex metal-ligand catalytic systems. Catalysts comprising earth-abundant and less toxic elements are desirable from the perspective of green chemistry. In this study, we developed a green hydroboration protocol for the reduction in esters, nitriles, and imines at room temperature (25 °C) using pinacolborane as the reducing agent and a commercially available Grignard reagent as the catalyst. Screening of various alkyl magnesium halides revealed MeMgCl as the optimal catalyst for the reduction. The hydroboration and subsequent hydrolysis of various esters yielded corresponding alcohols over a short reaction time (~0.5 h). The hydroboration of nitriles and imines produced various primary and secondary amines in excellent yields. Chemoselective reduction and density functional theory calculations are also performed. The proposed green hydroboration protocol eliminates the requirements for complex ligand systems and elevated temperatures, providing an effective method for the reduction in esters, nitriles, and imines at room temperature.
Keyphrases
  • room temperature
  • ionic liquid
  • density functional theory
  • randomized controlled trial
  • molecular dynamics
  • highly efficient
  • molecular dynamics simulations
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