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The photochemical ring-opening reaction of 1,3-cyclohexadiene: complex dynamical evolution of the reactive state

Authors :
Travnikova, O.
Piteša, T.
Ponzi, A.
Sapunar, M.
Squibb, R. J.
Richter, R.
Finetti, P.
Di Fraia, M.
De Fanis, A.
Mahne, N.
Manfredda, M.
Zhaunerchyk, V.
Marchenko, T.
Guillemin, R.
Journel, L.
Prince, K. C.
Callegari, C.
Simon, M.
Feifel, R.
Decleva, P.
Došlić, N.
Piancastelli, M. N.
Publication Year :
2022

Abstract

The photochemically induced ring-opening isomerization reaction of 1,3-cyclohexadiene (CHD) to 1,3,5-hexatriene (HT) is a textbook example of a pericyclic reaction, and has been amply investigated with advanced spectroscopic techniques. The generally accepted description of the isomerization pathway starts with a valence excitation to the lowest-lying bright state, followed by a passage through a conical intersection to a dark doubly excited state, and finally a branching between either the return to the ground state of the cyclic molecule or the actual ring-opening reaction leading to the open-chain isomer. It was traditionally assumed that the dark reactive state corresponds to the second excited state of CHD at the Franck-Condon geometry. Here in a joint experimental and computational effort we demonstrate that the evolution of the excitation-deexcitation process is much more complex than usually described. In particular, we show that an initially high-lying electronic state smoothly decreasing in energy along the reaction path plays a key role in the ring-opening reaction. The conceptual basis of our work is that the dynamics to consider here is determined by diabatic states, whose populations are the ones closely related to the observed photoelectron signal.<br />Comment: Sumbitted to Nature Communications (under review)

Subjects

Subjects :
Physics - Chemical Physics

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2202.10330
Document Type :
Working Paper