Design and Investigation of Carbazole–Dithienylethene Compounds for Switchable Organic Radical Systems DOI

Anastasiia Rysich,

Ludovic Favereau, Julien Boixel

et al.

The Journal of Physical Chemistry Letters, Journal Year: 2025, Volume and Issue: unknown, P. 4796 - 4803

Published: May 7, 2025

Photoswitchable radicals incorporating dithienylethene (DTE) moieties offer unique opportunities for dynamic control in various chemical and material applications. By exploiting light-triggered isomerization processes, researchers can achieve precise modulation of radical reactivity, enabling spatiotemporal transformations. Despite growing interest this field, challenges remain controlling spin-orbit coupling spin dynamics, which influence the electronic structure transitions induced by light absorption as well achieving photostability repeated photoisomerization cycles. To address these challenges, we have designed a new family photoswitchable organic that incorporate DTE carbazole centers. We studied delocalization through molecular evolution upon irradiation using ultraviolet/visible absorption, electron paramagnetic resonance, nuclear magnetic resonance spectroscopies. Our findings demonstrate photochromic behavior neutral form reversible formation, contributing to advancements promising field.

Language: Английский

Design and Investigation of Carbazole–Dithienylethene Compounds for Switchable Organic Radical Systems DOI

Anastasiia Rysich,

Ludovic Favereau, Julien Boixel

et al.

The Journal of Physical Chemistry Letters, Journal Year: 2025, Volume and Issue: unknown, P. 4796 - 4803

Published: May 7, 2025

Photoswitchable radicals incorporating dithienylethene (DTE) moieties offer unique opportunities for dynamic control in various chemical and material applications. By exploiting light-triggered isomerization processes, researchers can achieve precise modulation of radical reactivity, enabling spatiotemporal transformations. Despite growing interest this field, challenges remain controlling spin-orbit coupling spin dynamics, which influence the electronic structure transitions induced by light absorption as well achieving photostability repeated photoisomerization cycles. To address these challenges, we have designed a new family photoswitchable organic that incorporate DTE carbazole centers. We studied delocalization through molecular evolution upon irradiation using ultraviolet/visible absorption, electron paramagnetic resonance, nuclear magnetic resonance spectroscopies. Our findings demonstrate photochromic behavior neutral form reversible formation, contributing to advancements promising field.

Language: Английский

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