A novel and straightforward method for the iron-catalyzed
regioselective
cross-dehydrogenative coupling of para-quinone methides
(p-QMs) with formamides has been developed, facilitated
by the in situ activation of the C(sp2)–H bonds of the formyl and alkenyl substituents via a radical
strategy. This method does not require the preactivation of the substrates,
and it can accommodate a wide range of p-QMs and
formamides under the optimized reaction conditions, resulting in the
formation of the expected C-7 acetamides-functionalized para-quinone methides with moderate to good yields. The control experiments
revealed that the reaction follows the fundamental equation of second-order
kinetics. Additionally, an exploration of the Hammett effect was undertaken
to elucidate the impact of the substituents for the reaction. In combination
with the DFT calculation, a plausible reaction mechanism was proposed
through meticulously controlled experiments.