1 research outputs found
Isonicotinate Ester Catalyzed Decarboxylative Borylation of (Hetero)Aryl and Alkenyl Carboxylic Acids through <i>N</i>‑Hydroxyphthalimide Esters
Decarboxylative borylation of aryl
and alkenyl carboxylic acids
with bisÂ(pinacolato)Âdiboron was achieved through <i>N</i>-hydroxyphthalimide esters using <i>tert</i>-butyl isonicotinate
as a catalyst under base-free conditions. A variety of aryl carboxylic
acids possessing different functional groups and electronic properties
can be smoothly converted to aryl boronate esters, including those
that are difficult to decarboxylate under transition-metal catalysis,
offering a new method enabling use of carboxylic acid as building
blocks in organic synthesis. Mechanistic analysis suggests the reaction
proceeds through coupling of a transient aryl radical generated by
radical decarboxylation with a pyridine-stabilized persistent boryl
radical. Activation of redox active esters may proceed via an intramolecular
single-electron-transfer (SET) process through a pyridine–diboron–phthalimide
adduct and accounts for the base-free reaction conditions