Handbook of Aggregation-Induced Emission, Volume 1. Группа авторов

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Handbook of Aggregation-Induced Emission, Volume 1 - Группа авторов


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American Chemical Society.

      (b) Molecular conformation of HPS.

      Source: Reproduced with permission from Ref. [12]. Copyright 2015, American Chemical Society.

      (c) HPS molecule emission.

      Source: Reproduced with permission from Ref. [15]. Copyright 2015, Royal Society of Chemistry.

      Schematic illustration of (a) RIV mechanism of THBA. (b) RIV mechanism of COTh. Schematic illustration of (a) RIV mechanism of THBA.

      Source: Reproduced with permission from Ref. [12]. Copyright 2014, WILEY‐VCH Verlag GmbH & Co. KGaA.

      (b) RIV mechanism of COTh.

      Source: Reproduced with permission from Ref. [33]. Copyright 2019, Springer Nature.

Schematic illustration of examples of luminogens whose AIE activities are ascribed to the process of restriction of intramolecular motions (RIMs). (a) Molecular structure of PTZ-BZP and DFT-optimized geometry of a simplified structure with a methyl substituent.

      Source: Reproduced with permission Ref. [34]. Copyright 2014, WILEY‐VCH Verlag GmbH & Co. KGaA.

      (b) Molecular structure and single‐molecular structure of dP‐TCAQ.

      Source: Reproduced with permission from Ref. [35]. Copyright 2013, Royal Society of Chemistry.

      3.2.2 Investigation of RDBR AIE Mechanism by E/Z isomerization

      It is known in the textbook of organic chemistry that a carbon–carbon double bond is unable to rotate in general conditions. However, under irradiation or at high temperature, the π‐bond of the double bond can undergo homolytic cleavage and the double bond can rotate. The most well‐known example is molecular photoswitches or even molecular motors in which the Z‐isomer and E‐one can be reversibly transformed into each other (E/Z isomerization, EZI) through double bond rotation under irradiation or heating [38, 39]. Among AIEgens, most of them such as TPE, cyanostilbene, and their derivatives possess one essential double bond. Whether the double bond undergoes a rotation under irradiation of ultraviolet (UV) light and arouses nonradiative decay of these AIEgens in solution is brought to concern even from the moment the AIEgens start to appear. Because of the relatively simple synthesis method, easy to modify, and stable AIE effect, TPE and derivatives become the most extensively studied AIEgens. Meanwhile, RIR mechanism is rightly concluded from the investigation of TPE and its derivatives. Whether the double bond rotation of the TPE unit is involved in the AIE process is always in controversy. Due to the symmetrical structure of TPE, it is difficult to observe the obvious effect of double bond rotation without proper modification. In the beginning, it was thought that the double bond had little effect on the AIE mechanism.


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