Ultra long‐lived triplet excited state in water at room temperature: Insights on the molecular design of tridecafullerenes

AbstractAggregation-induced emission (AIE) has proven to be a viable strategy to achieve highly efficient room temperature phosphorescence (RTP) in bulk by restricting molecular motions. Here, we show that by utilizing triphenylamine (TPA) as an electronic donor that connects to an acceptor via an sp3 linker, six TPA-based AIE-active RTP luminophores were obtained. Distinct dual phosphorescence bands emitting from largely localized donor and acceptor triplet emitting states could be recorded at lowered temperatures; at room temperature, only a merged RTP band is present. Theoretical investigations reveal that the two temperature-dependent phosphorescence bands both originate from local/global minima from the lowest triplet excited state (T1). The reported molecular construct serves as an intermediary case between a fully conjugated donor-acceptor system and a donor/acceptor binary mix, which may provide important clues on the design and control of high-freedom molecular systems with complex excited-state dynamics.

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Chapter Open for the Excited-State Intramolecular Thiol Proton Transfer in the Room-Temperature Solution

Journal of the American Chemical Society ◽

10.1021/jacs.1c05602 ◽

2021 ◽

Author(s):

Chun-Hsiang Wang ◽

Zong-Ying Liu ◽

Chun-Hao Huang ◽

Chao-Tsen Chen ◽

Fan-Yi Meng ◽

...

Keyword(s):

Excited State ◽

Proton Transfer ◽

Room Temperature ◽

Temperature Solution

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Triplet energies and excimer formation in meta - and para -linked carbazolebiphenyl matrix materials

Philosophical Transactions of The Royal Society A Mathematical Physical and Engineering Sciences ◽

10.1098/rsta.2014.0446 ◽

2015 ◽

Vol 373 (2044) ◽

pp. 20140446 ◽

Cited By ~ 21

Author(s):

Sergey A. Bagnich ◽

Alexander Rudnick ◽

Pamela Schroegel ◽

Peter Strohriegl ◽

Anna Köhler

Keyword(s):

Excited State ◽

Triplet State ◽

Spectroscopic Investigation ◽

Triplet Excited State ◽

Conjugation Length ◽

Triplet Energy ◽

Excimer Formation

We present a spectroscopic investigation on the effect of changing the position where carbazole is attached to biphenyl in carbazolebiphenyl (CBP) on the triplet state energies and the propensity to excimer formation. For this, two CBP derivatives have been prepared with the carbazole moieties attached at the ( para ) 4- and 4 ′ -positions ( p CBP) and at the ( meta ) 3- and 3 ′ -positions ( m CBP) of the biphenyls. These compounds are compared to analogous m CDBP and p CDBP, i.e. two highly twisted carbazoledimethylbiphenyls, which have a high triplet energy at about 3.0 eV and tend to form triplet excimers in a neat film. This torsion in the structure is associated with localization of the excited state onto the carbazole moieties. We find that in m CBP and p CBP, excimer formation is prevented by localization of the triplet excited state onto the central moiety. As conjugation can continue from the central biphenyls into the nitrogen of the carbazole in the para -connected p CBP, emission involves mainly the benzidine. By contrast, the meta -linkage in m CBP limits conjugation to the central biphenyl. The associated shorter conjugation length is the reason for the higher triplet energy of 2.8 eV in m CBP compared with the 2.65 eV in p CBP.

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