posted on 2013-04-25, 00:00authored byOliver Schalk, Søren
L. Broman, Michael
Å. Petersen, Dmitry V. Khakhulin, Rasmus Y. Brogaard, Mogens
Brøndsted Nielsen, Andrey E. Boguslavskiy, Albert Stolow, Theis I. Sølling
Dihydroazulenes
are interesting because of their photoswitching
behavior. While the ring-opening to vinylheptafulvalene (VHF) is light
induced, the back reaction is known to proceed thermally. In the present
paper, we show the first gas phase study of the ring-opening reaction
of 2-phenyl-1,8a-dihydroazulene-1,1-dicarbonitrile (Ph-DHA) by means
of time-resolved photoelectron spectroscopy which permits us to follow
the ring-opening process. Moreover, we investigated s-trans-Ph-VHF in a series of transient absorption
experiments, supported by ab initio computations, to understand the
origin of the absence of light-induced ring-closure. The transient
absorption results show a biexponential decay governed by a hitherto
unknown state. This state is accessed within 1–2 ps and return
to the ground state is probably driven through a cis–trans isomerization about the exocyclic C1C2 double bond. The rapid decrease in potential energy disfavors internal
rotation to s-cis-Ph-VHF, the structure that would
precede the ring-closure reaction.