Группа авторов

Handbook of Aggregation-Induced Emission, Volume 2


Скачать книгу

image of MCF‐7 cells with incubation of 31 (50 μM) for 10 minutes or preincubated with a 10 mM inhibitor for 20 minutes and then treated with 31 (50 μM) for 10 minutes.

      Source: Panels (d–f) are reprinted from Ref. [47] (Copyright 2017 American Chemical Society).

Image described by caption.

      Source: Reprinted from Ref. [46] (Copyright 2018 Royal Society of Chemistry).

Schematic illustration of the design principle of the fluorescence turn-on detection of heparin based on AIE characteristics of 33.

      Source: Adapted with permission from Ref. [48] (Copyright 2013 Elsevier B.V.).

       3.2.3 Ratiometric pH Probes

      As one of the key parameters, pH plays a crucial role in all life forms including external environment as well as cellular functions. Small changes in the pH of the environment may even affect the lives of many plants and animals. In addition, pH is a key factor in pharmaceuticals, food, and drinking water. For intracellular pH, the fluctuation has a significant effect on cell growth, enzyme activity, and ion transport. pH is also one of the important parameters to distinguish cancer cells from normal cells. Therefore, monitoring pH is critical to maintaining our living environment and improving the quality of our life.

      The hydroxyl groups of SSB experience deprotonation according to the increase of medium pH; thus, most SSB AIE fluorophores show significant fluorescent wavelength change, usually blue‐shifted as pH increases [49–53]. Therefore, SSB is of unique advantage for designing ratiometric fluorescent pH probes. In particular, fluorescent pH probes with a ratiometric response manner are highly preferred for pH monitoring in complex samples because of their visible fluorescence color change and better resistance to variations of sensor concentration and external environment. Till date, a number of ratiometric fluorescent pH probes have been designed based on SSB and successfully applied in test paper‐based detection [50] and in bioimaging [49, 52].

       3.2.4 Bioimaging