Intramolecular Triple Cyclization Strategy for Sila‐ and Oxa‐Analogues of Truxene with Long‐Lived Phosphorescence

Intramolecular Triple Cyclization Strategy for Sila‐ and Oxa‐Analogues of Truxene with Long‐Lived Phosphorescence

Trisilatruxene and trioxatruxene were synthesized by intramolecular triple cyclization of triphenylbenzene derivatives. The results of photophysical studies with these substances show that absorption, fluorescence, and phosphorescence of trisilatruxene appear at longer wavelengths compared to those...

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Published in:Asian journal of organic chemistry Vol. 6; no. 3; pp. 290 - 296
Main Authors: Ogaki, Takuya, Ohta, Eisuke, Oda, Yukiko, Sato, Hiroyasu, Matsui, Yasunori, Kumeda, Motoki, Ikeda, Hiroshi
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 01-03-2017
Subjects:
aromatic substitution
fused-ring systems
heterocycles
Organic chemistry
phosphorescence
truxene
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Abstract Trisilatruxene and trioxatruxene were synthesized by intramolecular triple cyclization of triphenylbenzene derivatives. The results of photophysical studies with these substances show that absorption, fluorescence, and phosphorescence of trisilatruxene appear at longer wavelengths compared to those of hexamethyltruxene. The results of DFT calculations suggest that these effects are a consequence of a decrease in the energy of the LUMO caused by σ*–π* orbital interactions in the silole rings. In contrast, trioxatruxene absorbs and emits light at shorter wavelengths than those of hexamethyltruxene as a result of aromatic stabilization of the furan rings. Moreover, all of the truxenes display long‐lived phosphorescence with lifetimes in the range of 4.4–16.4 s, attributable to the symmetry‐forbidden nature of T1→S0 transitions essentially linked with the C3‐symmetric structures. Trisilatruxene and trioxatruxene, respective sila‐ and oxa‐analogues of truxene, were synthesized by employing a new intramolecular triple cyclization strategy. These compounds together with hexamethyltruxene display long‐lived phosphorescence with the lifetime of 4.4–16.4 s at a low temperature. The long lifetimes are attributable to the symmetry‐forbidden T1→S0 transitions, being essentially linked with the C3‐symmetric structures.
AbstractList Trisilatruxene and trioxatruxene were synthesized by intramolecular triple cyclization of triphenylbenzene derivatives. The results of photophysical studies with these substances show that absorption, fluorescence, and phosphorescence of trisilatruxene appear at longer wavelengths compared to those of hexamethyltruxene. The results of DFT calculations suggest that these effects are a consequence of a decrease in the energy of the LUMO caused by σ*–π* orbital interactions in the silole rings. In contrast, trioxatruxene absorbs and emits light at shorter wavelengths than those of hexamethyltruxene as a result of aromatic stabilization of the furan rings. Moreover, all of the truxenes display long‐lived phosphorescence with lifetimes in the range of 4.4–16.4 s, attributable to the symmetry‐forbidden nature of T1→S0 transitions essentially linked with the C3‐symmetric structures. Trisilatruxene and trioxatruxene, respective sila‐ and oxa‐analogues of truxene, were synthesized by employing a new intramolecular triple cyclization strategy. These compounds together with hexamethyltruxene display long‐lived phosphorescence with the lifetime of 4.4–16.4 s at a low temperature. The long lifetimes are attributable to the symmetry‐forbidden T1→S0 transitions, being essentially linked with the C3‐symmetric structures.
Trisilatruxene and trioxatruxene were synthesized by intramolecular triple cyclization of triphenylbenzene derivatives. The results of photophysical studies with these substances show that absorption, fluorescence, and phosphorescence of trisilatruxene appear at longer wavelengths compared to those of hexamethyltruxene. The results of DFT calculations suggest that these effects are a consequence of a decrease in the energy of the LUMO caused by σ*-π* orbital interactions in the silole rings. In contrast, trioxatruxene absorbs and emits light at shorter wavelengths than those of hexamethyltruxene as a result of aromatic stabilization of the furan rings. Moreover, all of the truxenes display long-lived phosphorescence with lifetimes in the range of 4.4-16.4s, attributable to the symmetry-forbidden nature of T1[arrow right]S0 transitions essentially linked with the C3-symmetric structures.
Abstract Trisilatruxene and trioxatruxene were synthesized by intramolecular triple cyclization of triphenylbenzene derivatives. The results of photophysical studies with these substances show that absorption, fluorescence, and phosphorescence of trisilatruxene appear at longer wavelengths compared to those of hexamethyltruxene. The results of DFT calculations suggest that these effects are a consequence of a decrease in the energy of the LUMO caused by σ*–π* orbital interactions in the silole rings. In contrast, trioxatruxene absorbs and emits light at shorter wavelengths than those of hexamethyltruxene as a result of aromatic stabilization of the furan rings. Moreover, all of the truxenes display long‐lived phosphorescence with lifetimes in the range of 4.4–16.4 s, attributable to the symmetry‐forbidden nature of T 1 →S 0 transitions essentially linked with the C 3 ‐symmetric structures.
Author Oda, Yukiko
Ikeda, Hiroshi
Ogaki, Takuya
Kumeda, Motoki
Sato, Hiroyasu
Ohta, Eisuke
Matsui, Yasunori
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Snippet Trisilatruxene and trioxatruxene were synthesized by intramolecular triple cyclization of triphenylbenzene derivatives. The results of photophysical studies...
Abstract Trisilatruxene and trioxatruxene were synthesized by intramolecular triple cyclization of triphenylbenzene derivatives. The results of photophysical...
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wiley
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StartPage 290
SubjectTerms aromatic substitution
fused-ring systems
heterocycles
Organic chemistry
phosphorescence
truxene
Title Intramolecular Triple Cyclization Strategy for Sila‐ and Oxa‐Analogues of Truxene with Long‐Lived Phosphorescence
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fajoc.201600560
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