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

      16  9 Homogeneous Systems to Induce Emission of AIEgens 9.1 Introduction 9.2 Homogeneous Solution 9.3 Liquid 9.4 Gels and Network Polymers 9.5 Crystalline Materials 9.6 Outlook and Future Perspectives References

      17  10 Hetero‐aggregation‐induced Tunable Emission (HAITE) Through Cocrystal Strategy 10.1 Introduction 10.2 Interactions Within Organic Cocrystals 10.3 Preparation of Organic Cocrystals 10.4 Molecular Stacking Modes Within Organic Cocrystals 10.5 Characterization of Organic Cocrystals 10.6 HAITE Through Cocrystal Strategy 10.7 Summary and Outlook References

      18  11 Anti‐Kasha Emission from Organic Aggregates 11.1 Introduction 11.2 Anti‐Kasha Emission from Aromatic Carbonyl Compounds in Aggregates 11.3 Anti‐Kasha Emission from Azulene Compounds in Aggregate 11.4 Anti‐Kasha Emission from Other Unconventional Aromatic Compounds in Aggregates 11.5 Conclusions References

      19  12 Aggregation‐enhanced Emission: From Flexible to Rigid Cores 12.1 Introduction 12.2 Freely Moving Rotors‐induced Emission Enhancement 12.3 Guest‐induced Emission Enhancement 12.4 Conclusion Acknowledgment References

      20  13 Room‐temperature Phosphorescence of Pure Organics 13.1 Introduction 13.2 Fundamental Mechanism in Organic Phosphorescence 13.3 Recent Progress in Organic RTP Materials 13.4 Conclusions and Perspectives References

      21  14 A Global Potential Energy Surface Approach to the Photophysics of AIEgens: The Role of Conical Intersections 14.1 Introduction 14.2 Methodological Aspects 14.3 CI‐centered Global PES for AIEgens 14.4 Crystallization‐induced Phosphorescence 14.5 Effect of Intermolecular and Intramolecular Interactions on the Photophysics of AIEgens 14.6 New Challenges 14.7 Conclusions and Outlook References

      22  15 Multicomponent Reactions as Synthetic Design Tools of AIE and Emission Solvatochromic Quinoxalines 15.1 Introduction 15.2 Synthetic Approaches to Quinoxalines via Multicomponent Reactions and One‐Pot Processes 15.3 Photophysical Properties and Emission Solvatochromicity of Quinoxalines 15.4 AIE Characteristics and Effects of Quinoxalines 15.5 Conclusion Acknowledgments References

      23  16 Aggregation‐induced Emission Luminogens with Both High‐luminescence Efficiency and Charge Mobility 16.1 Introduction 16.2 p‐Type OSCs 16.3 n‐Type OSCs 16.4 Ambipolar OSCs 16.5 Conclusion and Perspective References

      24  17 Morphology Modulation of Aggregation‐induced Emission 17.1 Introduction 17.2 Aggregation Modulation of AIE Bioprobes via Hydrophilicity Improvement 17.3 Thermodynamic Self‐assembly of AIE Materials 17.4 Morphology Tuning of AIE Nanoaggregates 17.5 Kinetic‐driven Preparation of AIE NPs 17.6