Photosensitized long-lived room-temperature phosphorescence of naphthalene-d8 as a result of T–T energy transfer inside the 4′-tret-butylacetophonone- naphthalene-d8@2β-cyclodextrin inclusion complex

T–T energy transfer inside the supramolecular system has been performed resulting in photosensitized long-lived room-temperature phosphorescence of naphthalene-d8 included to the complex 4′-t-butylacetophenone–naphthalene-d8–2β-cyclodextrine (tBA⋅Nph-d8@2βCD). In this system, formed by self-assembly...

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Published in:Journal of luminescence 2020-03, Vol.219, p.116909, Article 116909
Main Authors: Nazarov, V.B., Avakyan, V.G., Alfimov, M.V.
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Language:English
Subjects:
4′-t-butylacetophenone
ab initio CIS
DFT
Naphthalene-d8
Photosensitized long-lived phosphorescence at room temperature
Quantum-chemical calculations (PM3
TD TDF
Triplet–triplet energy transfer
β-Cyclodextrin
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Alfimov, M.V.
description T–T energy transfer inside the supramolecular system has been performed resulting in photosensitized long-lived room-temperature phosphorescence of naphthalene-d8 included to the complex 4′-t-butylacetophenone–naphthalene-d8–2β-cyclodextrine (tBA⋅Nph-d8@2βCD). In this system, formed by self-assembly, the donor (D) of triplet energy was tBA, the acceptor (A) was naphthalene-d8. Upon deleting dissolved atmospheric oxygen with added sodium sulfite, the phosphorescence lifetime increased from 4.7 to 12.8 s. A mono-exponential character of decay curves was indicative of a uniform structure of the emitting species. Our quantum-chemical simulations have shown that, in the cavity of β-cyclodextrine dimer, D and A of triplet excitation are located closer (4.81 Å) than in free state (5.19 Å), which ensures efficient transfer of triplet excitation to naphthalene-d8. •A based on beta-cyclodextrin complex with unique properties was implemented.•A process of a T-T excitation energy transfer was carried out within complex.•This results in lengthy (4.7 s) room temperature phosphorescence in presence of O2.•Phosphorescence time is increased to 12.8 s after deleting O2 from solution.
doi_str_mv 10.1016/j.jlumin.2019.116909
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Our quantum-chemical simulations have shown that, in the cavity of β-cyclodextrine dimer, D and A of triplet excitation are located closer (4.81 Å) than in free state (5.19 Å), which ensures efficient transfer of triplet excitation to naphthalene-d8. •A based on beta-cyclodextrin complex with unique properties was implemented.•A process of a T-T excitation energy transfer was carried out within complex.•This results in lengthy (4.7 s) room temperature phosphorescence in presence of O2.•Phosphorescence time is increased to 12.8 s after deleting O2 from solution.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jlumin.2019.116909</doi></addata></record>
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subjects 4′-t-butylacetophenone
ab initio CIS
DFT
Naphthalene-d8
Photosensitized long-lived phosphorescence at room temperature
Quantum-chemical calculations (PM3
TD TDF
Triplet–triplet energy transfer
β-Cyclodextrin
title Photosensitized long-lived room-temperature phosphorescence of naphthalene-d8 as a result of T–T energy transfer inside the 4′-tret-butylacetophonone- naphthalene-d8@2β-cyclodextrin inclusion complex
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