AI Article Synopsis
- Nitriles are important compounds used to create various chemicals like pharmaceuticals and agrochemicals.
- The study presents a nickel-catalyzed method for converting nitriles to alcohols using molecular hydrogen, involving a sequence of reactions.
- This method is efficient for different types of nitriles and can be applied to complex drug molecules, producing alcohols that are crucial in many fields such as organic synthesis and energy technology.
Article Abstract
Nitriles are an abundant class of compounds that are widely used as versatile feedstocks to produce various chemicals including pharmaceuticals, and agrochemicals as well as materials. Here we report Ni-catalyzed reductive hydrolysis of nitriles to alcohols in the presence of molecular hydrogen. This conversion likely occurs in a domino reaction sequence that first involves the hydrogenation of nitrile to primary imine, then the hydrolysis of imine, and subsequent deamination to the aldehyde, which is finally hydrogenated to the desired alcohol. Crucial for this reductive hydrolysis process is the commercially available triphos-ligated Ni-complex that enables highly efficient and selective transformation of aromatic, heterocyclic, and aliphatic nitriles including fatty nitriles to prepare functionalized primary alcohols. Further, the synthetic applicability of this Ni-based protocol is presented for the selective conversion of nitrile to alcoholic group in structurally diverse and complex drug molecules as well as agrochemicals. The resulting products, alcohols are indispensable chemicals commonly used in organic synthesis and life sciences as well as material and energy technologies.
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| http://dx.doi.org/10.1002/anie.202414689 | DOI Listing |
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