Handbook of Aggregation-Induced Emission, Volume 2. Группа авторов

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СКАЧАТЬ rel="nofollow" href="#ulink_016aad3d-0bdf-535f-bcab-6c716fe3fb78">Figure 1.3 TPP‐based chiral cage for self‐assembly to achieve white‐light em...Figure 1.4 Functional MOFs with TPP‐4COOH as ligand for sensing. (a) Intersy...

      2 Chapter 2Figure 2.1 Small molecules of 9,10‐distyrylanthracene (DSA) derivatives exhi...Figure 2.2 Compounds based on DSA exhibiting response luminescence upon exte...Figure 2.3 (a) Reversible structural isomerization between 1‐11 (DSA‐2...Figure 2.4 (a) The symmetrical and asymmetrical protonation states of compou...Figure 2.5 Small molecules and macromolecules of DSA derivatives that exhibi...Figure 2.6 Single crystal of 2‐7 (i.e. 9,10‐bis(2,2‐diphenylvinyl) ant...Figure 2.7 Aggregation emission properties and self‐assembly of conjugated o...Figure 2.8 Small molecules and macromolecules of DSA derivatives applied in ...Figure 2.9 (a) Scanning electron microscopy (SEM) images of monodispersed fo...Figure 2.10 Confocal laser scanning microscopy images of HeLa cells after in...Figure 2.11 Molecules based on DSA for chemical and biological sensing.Figure 2.12 (a) Design strategy for Ag⁺ sensing; (b) fluorescence spectra of...Figure 2.13 (a) Schematic description of the selective fluorescent aptasenso...

      3 Chapter 3Figure 3.1 Schematic illustration of intramolecular rotation and excited‐sta...Figure 3.2 Schematic illustration of the ESIPT process of SSB derivatives....Figure 3.3 Chemical structures of typical turn‐off metal ion probes 1–7.Figure 3.4 (a) Scheme for immobilization of 4‐chloro‐2‐[(propylimino) methyl...Figure 3.5 (A) Proposed mechanism for AIE and self‐assembly of 5 or 6 by Cu²...Figure 3.6 Chemical structures of typical turn‐on SSB metal ion probes 8–16....Figure 3.7 (A) Chemical structures of 8 analogues: 8a–f. (B) Fluorescence sp...Figure 3.8 (A) Illustration of the light‐up detection of Ca²⁺ with probe 16....Figure 3.9 (a) Chemical structures of ratiometric fluorescent probes 17–19 b...Figure 3.10 (a) Chemical structure of probe 17 and binding mode with zinc io...Figure 3.11 (A) Fluorescence spectra of 18 (20 mM) upon the addition of diff...Figure 3.12 (a) Chemical structures of cyanide probes 20 and 21. (b) Propose...Figure 3.13 (a) Design rationale of the fluorescence turn‐on detection of UOFigure 3.14 (a) Schematic illustration of the PPi detection mechanism of 26 ...Figure 3.15 (a) Cyclization reaction of 27 with Cys followed by hydrolysis t...Figure 3.16 (a) Design principle of the fluorescence turn‐on detection of pr...Figure 3.17 (a) Synthesis and schematic presentation of the ratiometric fluo...Figure 3.18 (a) Fluorescent light‐up probe 30 for β‐galactosidase detection....Figure 3.19 (a) An indirect approach for fluorescence light‐up detection of ...Figure 3.20 (a) Design principle of the fluorescence turn‐on detection of he...Figure 3.21 (a) Schematic of deprotonation processes of compound 34. (b) pH‐...Figure 3.22 (a) Chemical structures of some SSB probes with ratiometric pH‐r...Figure 3.23 (a) Chemical structures of typical mitochondrial targeting SSB p...Figure 3.24 (A) Chemical structures of 41 and 42. (B) Confocal images of HeL...Figure 3.25 (a) Chemical structures of 46 and 47, and a schematic illustrati...Figure 3.26 (a) Molecular structures of 48–53. (b–d) SEM images of 48–50...Figure 3.27 (a) Chemical structures of compounds 55–66 and the scheme ...Figure 3.28 (a) Molecular structure of 68. (b) Polymorphic single crystals o...Figure 3.29 Schematic diagram of the molecular structure of 70 and its mecha...Figure 3.30 (a) Molecular structure of 71. (b) Normalized emission spectra o...Figure 3.31 (a) Chemical structures of 73, 74, and the reaction mechanism of...Figure 3.32 (a) Schematic illustration of dual‐organelle‐targeted NPs with s...Figure 3.33 Emission wavelengths of typical SSB fluorophores.

      4 Chapter 4Figure 4.1 Molecular structure of DADQs: (a) the quinonoid–benzenoid forms a...Figure 4.2 General schemes for the synthesis of DADQs.Figure 4.3 Molecular structure of various DADQ derivatives, chiral and achir...Figure 4.4 Variation of the solid‐state SHG of some DADQ derivatives with b _e...Figure 4.5 Some remote functionalized DADQs exhibiting enhanced fluorescence...Figure 4.6 Fluorescence emission colour variation across DADQ derivatives. A...Figure СКАЧАТЬ