Application of statistical learning and mechanistic modelling towards mapping the substrate electronic space in a Cu-catalyzed Suzuki-Miyaura coupling

Cu-catalyzed Suzuki-Miyaura coupling between highly fluorinated aryl boronate esters and aryl iodides has been studied with DFT calculations. The reaction mechanism proposed suggests that the oxidative addition of the aryl iodide onto the copper catalyst is the rate-determining step. Several alternative reactions, in which the initial substrates have been replaced by para- and meta-substituted reactants, have been computed to build a reaction barrier database that accounts for the electronic properties of a wide range of functional groups. Statistical learning techniques, based on multi linear regression (MLR) modeling, allow interpreting the electronic effects of both substrates onto the overall reaction barrier, indicating that both electron poor aryl boronate esters and aryl iodides produce lower reaction barriers. The reaction barrier database and the MLR models can be combined to generate an electronic substrate map that easily enables estimating the reaction outcome for analogous Suzuki-Miyaura reactions between aryl boronate esters and iodobenzenes.

Automated summary

The Cu-catalyzed Suzuki-Miyaura coupling between highly fluorinated aryl boronate esters and aryl iodides has been investigated using DFT calculations. The proposed reaction mechanism suggests that the rate-determining step is the oxidative addition of the aryl iodide to the copper catalyst. Computational studies on alternative reactions with different substituents provide a reaction barrier database that considers the electronic properties of various functional groups. Statistical learning techniques, specifically multi linear regression (MLR) modeling, reveal that both electron poor aryl boronate esters and aryl iodides result in lower reaction barriers. The combination of the reaction barrier database and MLR models allows for the generation of an electronic substrate map for estimating the reaction outcome in analogous Suzuki-Miyaura reactions between aryl boronate esters and iodobenzenes.