Ligand Design Enables Cu-Catalyzed Etherification of Aryl Bromides Using Mild Bases

Author(s)

Strauss, Michael J; Greaves, Megan E; Kim, Seoung-Tae; Schmidt, Michael A; Scola, Paul M; Buchwald, Stephen L; ... Show more Show less

Abstract

We report a Cu-catalyzed method for the efficient coupling of base-sensitive aryl bromides and alcohols utilizing a newly developed N1,N2-diarylbenzene-1,2-diamine ligand, L15. This ligand was developed to increase the Lewis acidity of the Cu center, thereby permitting the use of a substantially milder base (NaOTMS or NaOPh) relative to those required in a previous iteration of this methodology (NaOMe or NaOt-Bu). Under the optimized reaction conditions, several classes of previously incompatible aryl bromides were efficiently transformed, including base-sensitive heterocycles and those containing acidic functional groups. Kinetic analyses support that C–O coupling proceeds via a mechanism involving binding/deprotonation of alcohol nucleophiles, that the pKa of the base influences the overall rate law, and that substoichiometric quantities of strong base can be utilized to accelerate ligand activation and thereby increase the overall rate of the transformation.

Date issued

2026-01-05

URI

https://hdl.handle.net/1721.1/165021

Department

Massachusetts Institute of Technology. Department of Chemistry

Journal

Organic Letters

Publisher

American Chemical Society

Citation

Ligand Design Enables Cu-Catalyzed Etherification of Aryl Bromides Using Mild Bases Michael J. Strauss, Megan E. Greaves, Seoung-Tae Kim, Michael A. Schmidt, Paul M. Scola, and Stephen L. Buchwald. Organic Letters 2026 28 (2), 855-859.

Version: Final published version