Based on the JOYCE quantum-derived force field for specific electronic states, we propose a non-adiabatic dynamic procedure named Nora, to study the photochemical evolution of different chromophores at the cost of classical molecular dynamics simulations. Notably, we present its application to the E/Z photoisomerization of a biomimetic cyclocurcumin-based photoswhitch, which may have applications in oxygen-independent photodynamic therapy or photo-immunotherapy. This new methodology opens an expansive timescale in the study of photochemical processes in biological environments.
NORA: non-adiabatic dynamics with force-field based representation. Application to photoisomerization in biomimetic photoswitches
Prampolini, Giacomo;
2025
Abstract
Based on the JOYCE quantum-derived force field for specific electronic states, we propose a non-adiabatic dynamic procedure named Nora, to study the photochemical evolution of different chromophores at the cost of classical molecular dynamics simulations. Notably, we present its application to the E/Z photoisomerization of a biomimetic cyclocurcumin-based photoswhitch, which may have applications in oxygen-independent photodynamic therapy or photo-immunotherapy. This new methodology opens an expansive timescale in the study of photochemical processes in biological environments.File in questo prodotto:
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Chem. Commun., 2025, 61, 18862–18865.pdf
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