Handbook of Aggregation-Induced Emission, Volume 1. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Химия
Год издания: 0
isbn: 9781119642893
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made the decay of emission band much longer than 18 and 19. For 22 or 23 with a rigid structure, the formation of the photocyclized intermediate took place directly on the subpicosecond timescale so that the fluorescence was very weak.

Schematic illustration of tPE derivatives 18–23 with increased structural rigidity and their transformation upon UV irradiation (QY: fluorescence quantum yield).

      Source: Reproduced with permission from Ref. [57]. Copyright 2018, Royal Society of Chemistry.

Schematic illustration of the PES of 18 in the ground state and excited state as a function of the (quasi) C bond C bond twisting and phenyl torsion dihedral angles. (a) Top view of the first excited-state PES. (b) Top view of the ground-state PES.

      Source: Reproduced with permission from Ref. [57]. Copyright 2018, Royal Society of Chemistry.

Schematic illustration of (a-c) photoisomerization of TPE-2OMe and TPE-2F in chloroform (a) under deep-UV lamp irradiation, (b) under ambient-light irradiation, and (c) in the dark. (d) Photoisomerization of TPE-2OMe and TPE-2F in the solid state.

      Source: Reproduced with permission from Ref. [58]. Copyright 2017, American Chemical Society.

      In addition to free TPE‐2OMe monomer, the behavior in the crystal state was also simulated. From the crystal computational results, the torsion of the double bond was strictly inhibited by the other surrounding molecules, leading to only an 8° change of twisting angle. However, the twist of phenyl rings in the crystal state was identical to that of monomer in the excited state because the dihedral angle of the phenyl ring showed a similar variation (63° at S0min → 45° at S1min). This revealed that the double bond rotation triggered by photoirradiation rather than the phenyl ring rotation played a key role on the AIE effect.

      3.2.5 Other AIEgens Involving RBDR Process

      In addition to TPE, there are many other AIEgens with a double bond, in which the RDBR process is also involved in their luminescence emission.

      Source: Reproduced with permission from Ref. [58]. Copyright 2017, American Chemical Society.

Schematic illustration of molecular structures of dinitriles DCNT and DCNP.

      This inference was confirmed by Yamamoto’s calculation results [61]. Electronic structural calculations were employed to analyze the mechanisms of AIE and photo/thermal E/Z isomerization of CN‐MBE. In addition