Excited-State Barrier Controls E → Z Photoisomerization in p-Hydroxycinnamate Biochromophores

Ashworth, Eleanor K; Coughlan, Neville J. A.; Hopkins, W. Scott; Bieske, Evan J.; Bull, James N.

doi:10.1021/acs.jpclett.2c02613

J. Phys. Chem. Lett.

2022

DOI: 10.1021/acs.jpclett.2c02613

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Excited-State Barrier Controls E → Z Photoisomerization in p-Hydroxycinnamate Biochromophores

Eleanor K Ashworth

Neville J. A. Coughlan

W. Scott Hopkins

et al.

Abstract: Molecules based on the deprotonated p -hydroxycinnamate moiety are widespread in nature, including serving as UV filters in the leaves of plants and as the biochromophore in photoactive yellow protein. The photophysical behavior of these chromophores is centered around a rapid E → Z photoisomerization by passage through a conical intersection seam. Here, we use photoisomerization and photodissociation action spectroscopies with deprotonated 4… Show more

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A trajectory surface hopping study of the vibration-induced autodetachment dynamics of the 1-nitropropane anion

Issler,

Mitric,

Petersen

2023

Theor Chem Acc

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In this study, we investigate the autodetachment dynamics of the 1-nitropropane anion after vibrational excitation of the energetically lowest C–H stretching mode using our recently developed extended quantum classical surface hopping approach including the detachment continuum. Therein the detachment from an electronic bound anion state is treated as a nonadiabatic transition into discretized detachment continuum states for an ensemble of classical nuclear trajectories propagated on quantum mechanical potential energy surfaces. The initial ensemble is obtained by sampling a phase space distribution accounting for the vibrational excitation of the C–H stretching mode of the molecule to match the experimental conditions. The simulated kinetic energy distribution of the ejected electrons reproduces characteristic features of the available experimental data. Analysis of the nuclear dynamics points out that the approach to neutral-like geometries with decreased pyramidalization angle of the NO$$_2$$ 2 group and reduced the N–O bond lengths are the crucial factors enhancing the ultrafast autodetachment process in vibrationally excited 1-nitropropane. This is facilitated when the dipole-bound first excited state of the anion is populated, which is structurally similar to the neutral system. Although only a small transient population of this state is observed, it acts as an efficient doorway to the detachment continuum and is responsible for a significant amount of the ejected electrons.

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A trajectory surface hopping study of the vibration-induced autodetachment dynamics of the 1-nitropropane anion

Issler,

Mitric,

Petersen

2023

Theor Chem Acc

View full text Add to dashboard Cite

show abstract

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Excited-State Barrier Controls E → Z Photoisomerization in p-Hydroxycinnamate Biochromophores

Cited by 1 publication

References 55 publications

A trajectory surface hopping study of the vibration-induced autodetachment dynamics of the 1-nitropropane anion

A trajectory surface hopping study of the vibration-induced autodetachment dynamics of the 1-nitropropane anion

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