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Autori principali: Leonardo Martins Carneiro, Diego Ulysses Melo, Calvin Quessada Cabello, Paula Homem‐de‐Mello, Fabio Furlan Ferreira, Fernando Heering Bartoloni
Natura: Artículo Open Access
Pubblicazione: Wiley 2025
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Accesso online:https://onlinelibrary.wiley.com/doi/10.1111/php.14096
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author Leonardo Martins Carneiro
Diego Ulysses Melo
Calvin Quessada Cabello
Paula Homem‐de‐Mello
Fabio Furlan Ferreira
Fernando Heering Bartoloni
author_facet Leonardo Martins Carneiro
Diego Ulysses Melo
Calvin Quessada Cabello
Paula Homem‐de‐Mello
Fabio Furlan Ferreira
Fernando Heering Bartoloni
Leonardo Martins Carneiro
Diego Ulysses Melo
Calvin Quessada Cabello
Paula Homem‐de‐Mello
Fabio Furlan Ferreira
Fernando Heering Bartoloni
collection Wiley Open Access
contents Triplet states nurture the long‐lived emission at room temperature of a chlorine‐containing tetraphenylimidazole derivative when aggregation occurs in water/acetonitrile mixtures Leonardo Martins Carneiro Diego Ulysses Melo Calvin Quessada Cabello Paula Homem‐de‐Mello Fabio Furlan Ferreira Fernando Heering Bartoloni Photochemistry and Photobiology AbstractIn recent years, there have been numerous reports on the synthesis and applications of 1,2,4,5‐tetraphenylimidazole (TEPI) derivatives, particularly due to the photophysical properties of such systems. However, the long‐lived emission behavior of TEPIs has not been studied, with research largely limited to attempts at 77 K. In this study, the compound 1‐(4‐chlorophenyl)‐2,4,5‐triphenyl‐1H‐imidazole (TEPI‐Cl) was prepared and characterized using experimental techniques (i.e., absorption spectra, steady‐state, and long‐lived emission), as well as computationally, using a combination of Extended Tight Binding (xTB), Density Functional Theory (DFT), and Time‐Dependent (TD‐DFT) methods. TEPI‐Cl exhibited a low solvatochromic effect, both in absorption and steady‐state emission in organic solvents, which is typical of a locally excited transition; this was confirmed by the performed calculations. However, in its aggregated state (observed in water/acetonitrile mixtures with >80% of water, in volume), the compound displayed the emergence of a new band in the absorption spectrum, as well as aggregate‐induced enhanced emission in the steady‐state emission analysis. The long‐lived emission spectrum of TEPI‐Cl recorded at room temperature shows two signals (at 380 and 540 nm) and the presence of benzil enables the generation of triplet excited states of the latter, likely through an energy transfer process. The sensitivity of these signals to the presence of oxygen suggested that the related excited states are of a triplet nature; moreover, the calculated electronic transitions for the optimized structures of the T1 and T2 states are comparable to the experimentally observed long‐lived emission wavelengths. This newly observed behavior of TEPI‐Cl comes as a novel photophysical property added to this class of molecules, demonstrating its significant potential for further applications in complex matrices. 10.1111/php.14096 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1111/php.14096
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spellingShingle Triplet states nurture the long‐lived emission at room temperature of a chlorine‐containing tetraphenylimidazole derivative when aggregation occurs in water/acetonitrile mixtures
Leonardo Martins Carneiro
Diego Ulysses Melo
Calvin Quessada Cabello
Paula Homem‐de‐Mello
Fabio Furlan Ferreira
Fernando Heering Bartoloni
Photochemistry and Photobiology
Triplet states nurture the long‐lived emission at room temperature of a chlorine‐containing tetraphenylimidazole derivative when aggregation occurs in water/acetonitrile mixtures Leonardo Martins Carneiro Diego Ulysses Melo Calvin Quessada Cabello Paula Homem‐de‐Mello Fabio Furlan Ferreira Fernando Heering Bartoloni Photochemistry and Photobiology AbstractIn recent years, there have been numerous reports on the synthesis and applications of 1,2,4,5‐tetraphenylimidazole (TEPI) derivatives, particularly due to the photophysical properties of such systems. However, the long‐lived emission behavior of TEPIs has not been studied, with research largely limited to attempts at 77 K. In this study, the compound 1‐(4‐chlorophenyl)‐2,4,5‐triphenyl‐1H‐imidazole (TEPI‐Cl) was prepared and characterized using experimental techniques (i.e., absorption spectra, steady‐state, and long‐lived emission), as well as computationally, using a combination of Extended Tight Binding (xTB), Density Functional Theory (DFT), and Time‐Dependent (TD‐DFT) methods. TEPI‐Cl exhibited a low solvatochromic effect, both in absorption and steady‐state emission in organic solvents, which is typical of a locally excited transition; this was confirmed by the performed calculations. However, in its aggregated state (observed in water/acetonitrile mixtures with >80% of water, in volume), the compound displayed the emergence of a new band in the absorption spectrum, as well as aggregate‐induced enhanced emission in the steady‐state emission analysis. The long‐lived emission spectrum of TEPI‐Cl recorded at room temperature shows two signals (at 380 and 540 nm) and the presence of benzil enables the generation of triplet excited states of the latter, likely through an energy transfer process. The sensitivity of these signals to the presence of oxygen suggested that the related excited states are of a triplet nature; moreover, the calculated electronic transitions for the optimized structures of the T1 and T2 states are comparable to the experimentally observed long‐lived emission wavelengths. This newly observed behavior of TEPI‐Cl comes as a novel photophysical property added to this class of molecules, demonstrating its significant potential for further applications in complex matrices. 10.1111/php.14096 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Triplet states nurture the long‐lived emission at room temperature of a chlorine‐containing tetraphenylimidazole derivative when aggregation occurs in water/acetonitrile mixtures
topic Photochemistry and Photobiology
url https://onlinelibrary.wiley.com/doi/10.1111/php.14096