Handbook of Aggregation-Induced Emission, Volume 3. Группа авторов
19.3 Counterions and Aggregation‐induced Emission 19.4 Dye‐loaded Polymeric NPs and the Crucial Role of Bulky Counterions 19.5 Conclusions Acknowledgments References
27 20 Fluorescent Silver Staining Based on a Fluorogenic Ag+ Probe with Aggregation‐induced Emission Properties 20.1 Introduction 20.2 Historical Background of Silver Staining 20.3 Conventional Silver Staining Methods 20.4 Fluorogenic Probes for Ag+ Detection 20.5 Fluorogenic Silver Staining in Polyacrylamide Gel 20.6 Concluding Remarks References
28 Index
List of Tables
1 Chapter 11Table 11.1 Examples of AIE probes used to detect ions.Table 11.2 Examples of AIE probes used to detect enzymatic activity.
2 Chapter 20Table 20.1 Comparison of conventional silver stain methods and fluorogenic s...Table 20.2 Comparison of different protein detection methods.
List of Illustrations
1 Chapter 1Figure 1.1 The OLED devices and aggregated‐state lightening. (a) The constru...Figure 1.2 Molecular structures of TPE‐based conventional blue AIE‐active em...Figure 1.3 Molecular structures of green conventional AIE‐active emitters.Figure 1.4 Molecular structures of red conventional AIE‐active emitters.Figure 1.5 Molecular structures of conventional AIE‐active emitters to const...Figure 1.6 Aggregation‐induced phosphorescent emitters.Figure 1.7 Chemical structures of aggregation‐induced delayed fluorescent em...Figure 1.8 The structures of hybridized local and charge transfer materials ...
2 Chapter 2Figure 2.1 Molecular structures of chiral AIEgens 1–13 and corresponding glu...Figure 2.2 Molecular structures of chiral AIEgens 14–25 and corresponding gl...Figure 2.3 Molecular structures of chiral AIEgens 26–29 [22].Figure 2.4 (a) Molecular structure of chiral AIEgen enantiomers 30 and corre...Figure 2.5 Molecular structures of chiral AIEgens R‐31 and S‐31 and correspo...Figure 2.6 (a) Molecular structure of chiral AIEgen 32 and corresponding glu...Figure 2.7 (a) Molecular structures of TPE tetracycle enantiomers P‐33 and MFigure 2.8 (a) Synthesis of organic cubes from six TPE tetra‐aldehyde units ...Figure 2.9 Molecular structures of chiral Pt(II)‐Salen complexes 36–40 and c...Figure 2.10 Molecular structures of chiral Au3 cluster enantiomers R‐41 and Figure 2.11 (a) Molecular structures of chiral ligands R‐DPM and S‐DPM. (b) ...Figure 2.12 Molecular structures of chiral copper cluster enantiomers R‐43 a...Figure 2.13 Molecular structures of chiral silole‐based AIEgens 44–47 and co...Figure 2.14 Molecular structures of chiral TPE‐based AIEgens 48–51 and corre...Figure 2.15 Molecular structures of chiral TPE‐based AIEgens 52–54 and corre...Figure 2.16 Molecular structures of triangular macrocycle 55, TPE dual cycle...Figure 2.17 (a) Molecular structure of chiral AIEgen 58. (b) Scanning electr...Figure 2.18 (a) Molecular structures of R‐59 and S‐59 and schematic illustra...Figure 2.19 Schematic illustration of DNA‐biscyanine hybrid CPL‐active mater...Figure 2.20 Molecular structures of TPE macrocycle diquaternary ammoniums (a...Figure 2.21 (a) Schematic illustration of the co‐assembly processes. (b) Mol...Figure 2.22 Schematic illustration of the co‐assembly of molecules 66 and 67Figure 2.23 (a) Molecular structures of chiral gold complex enantiomers R‐68Figure 2.24 (a) Molecular structure of chiral TPE‐containing polymer 69 and ...Figure 2.25 Molecular structures of AIE‐active chiral conjugated polymers 70Figure 2.26 Molecular structures of AIE‐active three‐component chiral conjug...Figure 2.27 (a) Molecular structures of AIE‐active chiral conjugated polymer...Figure 2.28 (a) Molecular structure of chiral conjugated polymer 84 and corr...Figure 2.29 (a) Molecular structure of 85 and corresponding glum. (b) Schema...