As a widely-used sunscreen com-pound,the caffeic acid(CA)shows the strong UV absorption,while the photoinduced reaction mecha-nisms behind its photoprotection ability are not fully understood.We try to investigate the photoin-duced internal conversion dynam-ics of CA in order to explore the photoprotection mechanism.The most stable CA isomer is selected to examine its nonadiabatic dy-namics using the on-the-fly surface hopping simulations at the semi-empirical level of electronic-struc-ture theory.The dynamics starting from different electronic states are simulated to explore the dependence of the photoinduced reaction channels on the excitation wavelengths.Several S1/S0 conical intersections,driven by the H-atom detachments and the ring deformations,have been found to be responsible for the nonadiabatic decay of the CA.The simulation re-sults show that the branching ratios towards these intersections are modified by the light with different excitation energies.This provides the valuable information for the understanding of the photoprotection mechanism of the CA compound.
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SCNU Environmental Research Institute Provincial Key Laboratory of Chemical Pollution and Environmental Safety.and MOE Key Laboratory of Environmental Theoretical Chemistry of Environment China Normal University 510006;
