posted on 2022-12-08, 15:08authored byLiqi Wang, Xujun Zheng, Tatiana B. Kouznetsova, Tiffany Yen, Tetsu Ouchi, Cameron L. Brown, Stephen L. Craig
We report the mechanochemical reactivity of the highly
strained
pentacyclic hydrocarbon cubane. The mechanical reactivity of cubane
is explored for three regioisomers with 1,2-, 1,3-, and 1,4-substituted
pulling attachments. Whereas all compounds can be activated thermally,
mechanical activation is observed via pulsed ultrasonication of cubane-containing
polymers only when force is applied via 1,2-attachment. The single
observed product of the force-coupled reaction is a thermally inaccessible syn-tricyclooctadiene, in contrast to cyclooctatetraene
(observed thermally) or a pair of cyclobutadienes that would result
from sequential cyclobutane scission. We further quantify the mechanochemical
reactivity of cubane by single molecule force spectroscopy, and force-coupled
rate constants for ring opening reach ∼33 s–1 at a force of ∼1.55 nN, lower than forces of 1.8–2.0
nN that are typical of conventional cyclobutanes.