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Full Description
A broad view of the booming field in optical materials based on their applications and potentials.
Persistent luminescence refers to a property of materials in which they retain luminescence for hours or even days without a source of excitation once being charged. Persistently luminescent materials have found a huge range of technological applications, from optical displays to chemical sensing to information storage and security technologies. This growing field of research and development has never been such an important area of materials science.
Persistently Luminescent Materials offers a comprehensive overview of these emerging optical materials and their applications. It presents all major research trends, new information, and novel properties of the major and developing persistently luminescent materials. With detailed information on how to design new materials and create new functionalities, it's a must for researchers and technologists in virtually every major area of industry.
Persistently Luminescent Materials readers will also find:
Practical applications in phototherapy, biological imaging, displays, and more
Detailed discussion of topics including sustainability techniques, temperature sensing, sterilization, and optical information storage
Analysis of how to use persistently luminescent materials to create new theranostic functionalities
Persistently Luminescent Materials is ideal for specialists and professionals in the field, but also for a broader readership seeking a perspective of practical needs related to the applications of optical and perticularly persistently luminescent materials.
Contents
About the Editor xiii
Preface to "Persistently Luminescent Materials: From Development to Applications" xv
1 Introduction to Persistently Luminescent Materials 1
Nimai Pathak and Yuanbing Mao
1.1 Introduction 1
1.2 PersL Processes and Emission Mechanisms 5
1.3 Types of PLMs 13
1.4 Synthesis Methods for IPLMs 22
1.5 Measurements and Characteristics of PersL 27
1.6 Summary and Challenges 34
References 34
2 Application Advances in Display Technology Field of Long Persistent Phosphor 43
Dangli Gao, Chaoyang Jia, and Xiaojun Wang
2.1 Introduction 43
2.2 Research Progress on Afterglow Phosphors and Related Mechanisms 45
2.3 Application Advances in Display Field 47
2.4 Challenges and Opportunities 62
2.5 Summary 63
References 64
3 Persistent Luminescence-Based Light-Emitting Diodes 71
Bingfu Lei, Shuting Liu, and Xuejie Zhang
3.1 Introduction 71
3.2 Fundamentals of AC-LEDs 73
3.3 PersL Phosphors Applied in AC-LEDs 75
3.4 Challenges and Outlooks 89
References 90
4 Persistently Luminescent Nanoparticles for Bioimaging and Biosensors 95
Yi Wei, Guogang Li, and Jianhua Hao
4.1 Introduction 95
4.2 Fundamental Principles 96
4.3 Classifications with Excitation Light Sources 102
4.4 Enhancing Performance of PLNPs for Biomedicine 108
4.5 Conclusions and Outlook 115
Acknowledgments 116
References 116
5 Persistently Luminescent Nanoparticles for Cancer Therapy 129
Shileng Chen, Zhiyang Shen, Yu Qiu, and Hongmin Chen
5.1 Introduction 129
5.2 Luminescence Nanoparticles and Persistent Luminescent Nanoparticles 130
5.3 Persistently Luminescent Nanoparticles for Cancer Therapy 139
5.4 Biocompatibility of PLNPs 149
5.5 Conclusion 150
Acknowledgments 151
References 151
6 Persistently Luminescent Inorganic Materials for Anticounterfeiting 163
Luidgi Giordano, Guanyu Cai, Victor Castaing, Bruno Viana, and Cyrille Richard
6.1 Introduction 163
6.2 A Wide Range of Possible Excitation Wavelengths: from NIR to X-rays 167
6.3 The Possible Emission Wavelengths Applied to Anticounterfeiting: from UV to SWIR 178
6.4 A Particular Focus on ZGO Spinel and Garnets and Their Prospects for Optical Anticounterfeiting Applications 186
6.5 Multi-Mode Imaging of Latent Fingerprints (LFP) 192
6.6 Conclusions 195
References 196
7 Recent Advances of the Deep Trap Persistent Phosphor for Optical Data Storage 205
Dangli Gao and Chaoyang Jia
7.1 Introduction 205
7.2 The Information Storage Principle of Afterglow Materials 207
7.3 Enhanced Information Storage Capacity Strategy 210
7.4 Challenges and Opportunities of Optical Information Storage Materials 228
References 230
8 Afterglow Thermometer Using Persistent Phosphors 237
Chuan Liao, Feng Liu, Xiaojun Wang, and Jiahua Zhang
8.1 Introduction 237
8.2 Performance of Afterglow Thermometer 238
8.3 Response Parameters of Afterglow Thermometer 242
8.4 Physical Insights of Afterglow Thermometer 253
8.5 Extended Thermometers Using Storage Phosphors 266
8.6 Conclusion 268
References 269
9 Persistent Luminescence and Applications of Molecular Materials and Their Hybrids 283
Jiahui Xu, Huifang Shi, and Zhongfu An
9.1 Introduction 283
9.2 Mechanism of Organic Persistent Luminescence 284
9.3 Afterglow Materials 285
9.4 Applications 308
9.5 Summary and Prospective 311
Acknowledgment 312
Abbreviation 312
References 313
10 Summary and Perspectives on Persistently Luminescent Materials 323
Yuanbing Mao and Xiaojun Wang
10.1 Introduction 323
10.2 Other Applications 328
10.3 Conclusions, Challenges, and Perspectives 338
Acknowledgments 351
References 351
Index 359
