Mechanoluminescence in Organic and Inorganic Compounds
Basic Concepts, Instrumentation, and Applications
- 1st Edition - May 23, 2024
- Imprint: Elsevier
- Editors: Vikas Dubey, Dirk Poelman, Neha Dubey, Megha Jain
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 9 5 3 0 1 - 6
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 9 5 3 0 2 - 3
Mechanoluminescence in Organic and Inorganic Compounds: Basic Concepts, Instrumentation, and Applications provides a comprehensive overview of mechanoluminescence for newly qua… Read more
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Request a sales quoteMechanoluminescence in Organic and Inorganic Compounds: Basic Concepts, Instrumentation, and Applications provides a comprehensive overview of mechanoluminescence for newly qualified researchers and scientists across multiple related fields. It serves as a guide for budding scientists to advance in the field through various applications covered in this book, such as energy, mechanics, medicine, and optics. This reference shines light on the pros and cons of utilizing organic or inorganic mechanoluminescent materials, making it a handy tool for researchers worldwide involved in luminescence and applications such as optoelectronics, sensors, forensics, displays, energy harvesting, and smart robotics. The editors and their expert contributors summarize these applications, making it a valuable resource for academics, researchers, and those working in industry.
Mechanoluminescence in Organic and Inorganic Compounds contains broad coverage, which progresses from theory to applications, serves as a complete reference of global research and experience, which will work to inform and guide the development of more efficient devices for the future.
- Provides a comprehensive analysis of mechanoluminescence, starting from theory and moving on to instrumentation and applications
- Includes applications of mechanoluminescence covering fields such as electronics, mechanics, medicine, and optics, in just one book
- Promotes new research ideas in budding scientists on advanced applications for eco-friendly and sustainable growth of the academia and related industries
Graduate students, researchers, and industry professionals in nuclear and thermal power generation, defense, luminescent materials, chemical materials, and biomedicine Universities, colleges, research institutions, independent researchers, libraries
- Cover image
- Title page
- Table of Contents
- Copyright
- List of contributors
- About the editors
- Preface
- Acknowledgments
- Chapter 1. Luminescence: types and mechanism
- Abstract
- 1.1 Introduction
- 1.2 Characteristics and classification of luminescence
- 1.3 Mechanism of luminescence
- References
- Chapter 2. Advancements in instrumental setups for investigating mechanoluminescence
- Abstract
- 2.1 Introduction
- 2.2 Examples of mechanoluminescence materials and applications
- 2.3 Experimental techniques
- 2.4 Experimental setup of compression and tensile testing technique
- 2.5 Compression testing
- 2.6 Tensile testing
- 2.7 Experimental setup of bending and flexing technique
- 2.8 Bending technique
- 2.9 Flexing technique
- 2.10 Experimental setup of fracture or crack-induced technique
- 2.11 Experimental setup of tribological technique
- 2.12 Laboratory apparatus used to measure triboluminescence
- 2.13 Laboratory apparatus used to measure fractoluminescence
- 2.14 Laboratory apparatus used to measure the lastic-mechanoluminescence
- 2.15 Laboratory apparatus used to measure the plastico-mechanoluminescence
- 2.16 Mechanoluminescent materials
- 2.17 Conclusions
- Acknowledgments
- References
- Chapter 3. Synthesis of organic and inorganic mechanoluminescent compounds
- Abstract
- 3.1 Introduction
- 3.2 Synthesis methodologies
- 3.3 Conclusions
- References
- Chapter 4. Impact of doping on mechanoluminescence
- Abstract
- 4.1 Introduction
- 4.2 Difference between triboluminescence and mechanoluminescence
- 4.3 Representation of ML phosphor
- 4.4 Dependence of mechanoluminescence on crystal structures
- 4.5 Mechanism of mechanoluminescence
- 4.6 Impact of doping on mechanoluminescence
- 4.7 Conclusion
- References
- Chapter 5. Mechanoluminescence for display devices
- Abstract
- 5.1 Introduction
- 5.2 ML materials for display applications
- 5.3 Origin of ML
- 5.4 Methodology
- 5.5 Outlook
- References
- Chapter 6. Mechanoluminescence for infrastructure, health, and safety applications
- Abstract
- 6.1 Introduction
- 6.2 Mechanism of mechanoluminescence
- 6.3 Mechanoluminescent materials
- 6.4 Mechanoluminescence for infrastructure, health, and protection
- 6.5 Future prospects and conclusion
- References
- Chapter 7. Mechanoluminescence in anticounterfeiting
- Abstract
- 7.1 Introduction
- 7.2 Mechanoluminescence: mechanisms and experimental methodology
- 7.3 Factors affecting mechanoluminescence
- 7.4 Triboluminescence and its applications in anticounterfeiting technology
- 7.5 Materials for mechanoluminescence-based anticounterfeiting
- 7.6 Advances in mechanoluminescence materials
- 7.7 Applications of mechanoluminescence in anticounterfeiting
- 7.8 Challenges and future directions
- 7.9 Conclusion
- References
- Chapter 8. Mechanoluminescence for electronic skins and wearable devices
- Abstract
- 8.1 Introduction
- 8.2 Displays and sensors in electronic skins and wearable devices
- 8.3 ML for self-powered displays in wearable devices
- 8.4 ML for stress sensing in wearable devices
- 8.5 Challenges and prospects
- References
- Chapter 9. Mechanoluminescence for reconstructing 3D ultrasonic field
- Abstract
- 9.1 Introduction
- 9.2 Experiment
- 9.3 Back-projection tomography
- 9.4 Acoustically induced piezoluminescence visualization method
- 9.5 Solid-state reaction method
- 9.6 Literature review of specific applications of ML in 3D ultrasound imaging
- 9.7 Discussion
- 9.8 Conclusion
- References
- Further reading
- Chapter 10. Other emerging applications of mechanoluminescence and outlook
- Abstract
- 10.1 Introduction
- 10.2 History of ML applications
- 10.3 Classical applications of ML
- 10.4 Other emerging applications
- 10.5 Challenges
- 10.6 Summary
- References
- Index
- Edition: 1
- Published: May 23, 2024
- Imprint: Elsevier
- No. of pages: 300
- Language: English
- Paperback ISBN: 9780323953016
- eBook ISBN: 9780323953023
VD
Vikas Dubey
Dr. Vikas Dubey obtained his Master’s degree in Physics from the Govt. V.Y.T.PG. Autonomous College Durg, Chhattisgarh, India, and received gold medals for securing first rank. He obtained his PhD from National Institute of Technology, Raipur, Chhattisgarh, India. He is currently an Associate Professor in the Department of Physics at North-Eastern Hill University, Shillong, Meghalaya, India. During the last ten years of his research career, he has published more than 125 research papers in various reputed international journals, with more than 2500 citations. He has published 6 authored books, 12 edited books, and authored or co-authored several book chapters. He is also Editor of various reputed journals and has edited numerous special issues.
Affiliations and expertise
Associate Professor, Department of Physics, North-Eastern Hill University, Shillong, Meghalaya, IndiaDP
Dirk Poelman
Dirk Poelman is a full professor at Ghent University since 2012, where he is leading the research group Lumilab (http://lumilab.ugent.be/). He studied Physics and obtained his PhD on rare earth doped sulfide electroluminescent thin films at Ghent University (Belgium). He is author of 215 international (A1) publications in the Web of Science (h-index 41), editor of 5 books, author of 3 chapters in books, has over 150 contributions to international conferences (including more than 25 invited talks) and has (co)organized numerous conferences, such as EL2002 (Int. Conf. on Electroluminescence), ICTF14 (Int. Conf. on Thin Films) and "Phosphoros", the first international conference on persistent luminescence in 2011. In 2022, he will be the chair for the ICOOPMA2022 conference in Ghent. In addition, he is member of the international advisory committee or organizing committee of numerous conferences: IDW (International Display Workshops), ICOOPMA (Int. Conf. on Optical, Optoelectronic and Photonic Materials and Applications), CIMTEC, LUMIDOZ, Sol-Gel 2017, ISIEM2018.
Dirk Poelman has experience in different fields of Solid State Physics research, including thin film deposition and optical characterization, photo-, electro- and cathodoluminescent materials, structural and electrical defects in semiconductors, photocatalysis for air purification, X-ray analytical techniques and human vision. His current research is focused on inorganic phosphors for white LEDs and displays and persistent luminescent materials for safety illumination and medical imaging. He is promoter-spokesperson of the concerted research action “Combining plasma treatment and (photo)catalysis towards an energy-efficient technology for abatement of polluted air (COP-CAT)” at UGent. He is member (and former president) of the Belgian National Committee for Crystallography, promoter of DUBBLE (the Dutch-Belgian beam line at the ESRF synchrotron, Grenoble), board member of the scientific and technical research center diamond (WTOCD) and holds several administrative functions at the University. He is an editor for multiple sections of the international open access journal Materials (I.F. = 2.972) and main editor of the Journal of Luminescence (I.F. = 2.961). Dirk Poelman teaches numerous courses at Ghent University, both on the bachelor and master level.
Affiliations and expertise
Professor, Lumilab, Department of Solid State Sciences, Ghent University, Gent, BelgiumND
Neha Dubey
Govt.V.Y.T.PG. Autonomous College, Durg, India
Neha Dubey is Principal Investigator at Govt.V.Y.T.PG. Autonomous College, where she began work following completion of her PhD at RDVV Jabalpur in 2016. She has co-authored 1 book, 3 book chapters and published more than 20 articles in reputed journals. She is an editorial board member for the journal Advance Physics Letters, and has received awards for her presentations at both national and international conferences.
Affiliations and expertise
Principal Investigator, Govt.V.Y.T.PG. Autonomous College, Durg, IndiaMJ
Megha Jain
Ms. Megha Jain is a Senior Research Fellow in the Department of Basic and Applied Sciences at Punjabi University, in India. She has 14 publications in international and national peer review journals, and is a holder of the Young Scientist Award in the National Conference on Recent Advances in Chemical, Biological and Environmental Sciences. Her research areas focus on the application of techniques such as sol-gel, combustion, co-precipitation and hydrothermal for synthesis of nanomaterials, studying structural properties of metal oxides through refinement techniques (specifically rietveld refinement of x-ray diffraction data) and x-ray absorption spectroscopy, inducing and modifying the defect states within crystal structure by various means such as varying synthesis conditions, and studying the luminescence properties, particularly, photoluminescence, electroluminescence and thermoluminescence in the defected crystals.
Affiliations and expertise
Senior Research Fellow in the Department of Basic and Applied Sciences at Punjabi University, in India.Read Mechanoluminescence in Organic and Inorganic Compounds on ScienceDirect