A new BODIPY derivative (o-I-BDP) containing an iodine atom in the ortho position of the meso-linked phenyl group was prepared. Photophysical and electrochemical properties of the molecule were compared to previously reported iodo BODIPY derivatives, as well as to the non-iodinated analog. While in the case of derivatives featuring iodine substituents in the BODIPY core, efficient population of the triplet state is accompanied by a substantial positive shift of the reduction potential compared to pristine BODIPY, o-I-BDP displays phosphorescence and simultaneously maintains the electrochemical properties of unsubstituted BODIPYs. A theoretical investigation was settled to analyze results and rationalize the influence of iodine position on electronic and photophysical properties, with the purpose of preparing a fully organic phosphorescent BODIPY derivative. TD-DFT and spin-orbit coupling calculations shed light on the subtle effects played by the introduction of iodine atom in different positions of BODIPY.

Bassan, E., Dai, Y., Fazzi, D., Gualandi, A., Cozzi, P.G., Negri, F., et al. (2022). Effect of the iodine atom position on the phosphorescence of BODIPY derivatives: a combined computational and experimental study. PHOTOCHEMICAL & PHOTOBIOLOGICAL SCIENCES, 21(5), 777-786 [10.1007/s43630-021-00152-5].

Effect of the iodine atom position on the phosphorescence of BODIPY derivatives: a combined computational and experimental study

Bassan, Elena;Dai, Yasi;Fazzi, Daniele;Gualandi, Andrea;Cozzi, Pier Giorgio
;
Negri, Fabrizia
;
Ceroni, Paola
2022

Abstract

A new BODIPY derivative (o-I-BDP) containing an iodine atom in the ortho position of the meso-linked phenyl group was prepared. Photophysical and electrochemical properties of the molecule were compared to previously reported iodo BODIPY derivatives, as well as to the non-iodinated analog. While in the case of derivatives featuring iodine substituents in the BODIPY core, efficient population of the triplet state is accompanied by a substantial positive shift of the reduction potential compared to pristine BODIPY, o-I-BDP displays phosphorescence and simultaneously maintains the electrochemical properties of unsubstituted BODIPYs. A theoretical investigation was settled to analyze results and rationalize the influence of iodine position on electronic and photophysical properties, with the purpose of preparing a fully organic phosphorescent BODIPY derivative. TD-DFT and spin-orbit coupling calculations shed light on the subtle effects played by the introduction of iodine atom in different positions of BODIPY.
2022
Bassan, E., Dai, Y., Fazzi, D., Gualandi, A., Cozzi, P.G., Negri, F., et al. (2022). Effect of the iodine atom position on the phosphorescence of BODIPY derivatives: a combined computational and experimental study. PHOTOCHEMICAL & PHOTOBIOLOGICAL SCIENCES, 21(5), 777-786 [10.1007/s43630-021-00152-5].
Bassan, Elena; Dai, Yasi; Fazzi, Daniele; Gualandi, Andrea; Cozzi, Pier Giorgio; Negri, Fabrizia; Ceroni, Paola
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/890087
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