The primary event occurring during the E-to-Z photoisomerization reaction of retinal protonated Schiff base (rPSB) is single-to-double bond inversion. In this work we examine the nuclear dynamics that occurs when the initial excited state is a superposition of the S1 and S2 electronic excited states that might be created in a laser experiment. The nuclear dynamics is dominated by double bond inversion that is parallel to the derivative coupling vector of S1 and S2. Thus, the molecule behaves as if it were at a conical intersection even if the states are nondegenerate.
Olivucci, M., Tran, T., Worth, G.A., Robb, M.A. (2021). Unlocking the Double Bond in Protonated Schiff Bases by Coherent Superposition of S1and S2. THE JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 12(23), 5639-5643 [10.1021/acs.jpclett.1c01379].
Unlocking the Double Bond in Protonated Schiff Bases by Coherent Superposition of S1and S2
Olivucci M.
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2021-01-01
Abstract
The primary event occurring during the E-to-Z photoisomerization reaction of retinal protonated Schiff base (rPSB) is single-to-double bond inversion. In this work we examine the nuclear dynamics that occurs when the initial excited state is a superposition of the S1 and S2 electronic excited states that might be created in a laser experiment. The nuclear dynamics is dominated by double bond inversion that is parallel to the derivative coupling vector of S1 and S2. Thus, the molecule behaves as if it were at a conical intersection even if the states are nondegenerate.
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https://hdl.handle.net/11365/1203173