Abstract
Organoboron compounds are highly valuable in synthetic chemistry. In particular, α-borylcarbonyl compounds have shown versatile synthetic applications, owing to fruitful chemistries of both the boryl and carbonyl moieties. However, the synthesis of these molecules still remains tedious and time-consuming. Here we report a straightforward and practical route to synthesize α-borylcarbonyl molecules based on a regioselective radical α-borylation of α,β-unsaturated carbonyl compounds. The reaction features unusual α-regioselectivity and high functional-group compatibility. Further synthetic applications of new α-borylated products were also demonstrated. DFT and kinetic studies implicated that the α-regioselectivity of β-aryl-α,β-unsaturated carbonyl compounds was determined by the thermodynamically more favorable radical α-addition step, whereas the formation of α-addition products from β-alkyl-α,β-unsaturated carbonyl compounds was driven by an energetically favored hydrogen atom transfer step. Given that α,β-unsaturated carbonyl compounds can be easily obtained in abundance and variety, this method enjoys great advantages in diverse and economical synthesis of valuable α-borylcarbonyl molecules.
Highlights
Organoboron compounds are highly valuable in synthetic chemistry
Organoboron compounds have been substantially applied in chemical synthesis, medicinal chemistry, and material sciences[1]
Developing practical and broadly applicable new α-borylation methods that can make stable and structurally diverse α-borylcarbonyl compounds is highly desirable. α-Borylcarbonyl compounds with the boron center being quaternized by a Lewis base are air stable and handled[13,14,15]
Summary
Organoboron compounds are highly valuable in synthetic chemistry. In particular, α-borylcarbonyl compounds have shown versatile synthetic applications, owing to fruitful chemistries of both the boryl and carbonyl moieties. Both the boron and carbonyl moieties can be manipulated to install various functionalities of interest This strategy has shown important applications in a variety of research fields and the synthesis of stable α-borylcarbonyl compounds has captured considerable attention in synthetic chemistry[13,14,15,16,17,18,19,20]. He and Yudin[21], and Li and Burke[22] independently reported the synthesis of amphoteric α-boryl aldehydes from oxiranyl boronates by a Lewis acid-promoted 1,2boryl migration (Fig. 1a). Complex boron-substituted cyclic frameworks can be constructed as well
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