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Boron Enabled Directed [2+2]‐ and Dearomative [4+2]‐Cycloadditions Initiated by Energy Transfer

Souvik Adak, Partha Sarathi Hazra, Carter B. Fox, M. Kevin Brown

2024Angewandte Chemie International Edition15 citationsDOIOpen Access PDF

Abstract

A strategy for the photosensitized [2+2]-cycloaddition between styrenyl dihaloboranes and unactivated allylamines to access cyclobutylboronates with control of stereochemistry and regiochemistry is presented. The success of the reaction relies on the temporary coordination between in situ generated dihaloboranes and amines under mild reaction conditions. In addition, cyclobutanes with varying substitution patterns have been prepared using N-heterocycles as directing group. Manipulation of the C-B bond allows for the synthesis of a diverse class of cyclobutanes from simple precursors. Moreover, these reactions lead to the synthesis of complex amines and heteroaromatic compounds, which have significant utility in medicinal chemistry. Finally, a dearomative [4+2]-cycloaddition of naphthalenes using a boron-enabled temporary tethering strategy has also been uncovered to synthesize complex 3-dimensional borylated building blocks.

Topics & Concepts

BoronEnergy transferTransfer (computing)ChemistryComputer scienceParallel computingOrganic chemistryChemical physicsRadical Photochemical ReactionsCatalytic C–H Functionalization MethodsOxidative Organic Chemistry Reactions
Boron Enabled Directed [2+2]‐ and Dearomative [4+2]‐Cycloadditions Initiated by Energy Transfer | Litcius