The increasing interest in axially chiral biaryl moieties, which are prevalent in chiral ligands, organocatalysts, and bioactive molecules, has raised the need for developing novel efficient synthetic methods for these types of molecules. In addition to the currently available methods, such as kinetic resolution, desymmetrization and enantio‐ and diastereo‐selective biaryl coupling, we herein report a lipase‐catalyzed dynamic kinetic resolution (DKR) of racemic 2‐hydroxybiaryls through enantioselective O‐acylation. This method features the production of enantiomerically enriched atropisomers (89%–98% ee) in 91%–99% yields from eleven racemates. Notably, the DKR proceeds without any racemization catalyst since in situ‐racemization was achieved by easy rotation about the biaryl axis of the substrates. The enzymatic O‐acylation then furnished conformationally stable biaryl‐containing esters, in which the increased steric bulkiness of the O‐acyl moiety suppresses the rotation, i.e., racemization, under the reaction conditions of 35–50 °C. This experimental study was accompanied by a computational determination of the rotational barrier of substrates and products. The choice of suitable substrates with a significant difference in their rotational barrier compared to that of their products turned out to be the key to an efficient implementation of this method.