1. Next‐generation quantum theory of atoms in molecules for the S1/S0 conical intersections in dynamics trajectories of a light‐driven rotary molecular motor.
- Author
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Wang, LiLing, Azizi, Alireza, Momen, Roya, Xu, Tianlv, Kirk, Steven R., Filatov, Michael, and Jenkins, Samantha
- Subjects
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ATOMS in molecules theory , *MOLECULAR motor proteins , *DENSITY functionals , *DENSITY functional theory , *INTRAMOLECULAR forces , *BOND strengths , *MOLECULAR dynamics - Abstract
Next‐generation quantum theory of atoms in molecules was applied to analyze, along an entire bond path, intramolecular interactions known to influence the photoisomerization dynamics of a light‐driven rotary molecular motor. The 3D bond‐path framework set B0,1 constructed from the least and most preferred directions of electronic motion, provided new insights into the bonding leading to different S1 state lifetimes including the first quantification of covalent character of a closed‐shell intramolecular bond path. We undertook the first use of the stress tensor trajectory Tσ(s) analysis on selected nonadiabatic molecular dynamics trajectories with the electron densities obtained using the ensemble density functional theory method. The stress tensor Tσ(s) analysis was found to be well suited to follow the dynamics trajectories that included the S0 and S1 electronic states through the conical intersection and also provided to a new measure to assess the degree of purity of the axial bond rotation for the design of rotary molecular motors. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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