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Metal Oxides for Optoelectronics and Optics-Based Medical Applications
- 1st Edition - July 1, 2022
- Editors: Suresh Sagadevan, Jiban Podder, Faruq Mohammad
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 8 5 8 2 4 - 3
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 8 5 8 2 5 - 0
Metal Oxides for Optoelectronics and Optics-based Medical Applications reviews recent advances in metal oxides and their mechanisms for optoelectronic, photoluminescent and medic… Read more
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Request a sales quoteMetal Oxides for Optoelectronics and Optics-based Medical Applications reviews recent advances in metal oxides and their mechanisms for optoelectronic, photoluminescent and medical applications. In addition, the book examines the integration of key chemistry concepts with nanoelectronics that can improve performance in a diverse range of applications. Sections place a strong emphasis on synthesis processes that can improve the metal oxides’ physical properties and the reflected surface chemical changes that can impact their performance in various devices like light-emitting diodes, luminescence materials, solar cells, etc. Finally, the book discusses the challenges associated with the handling and maintenance of metal oxides crystalline properties.
This book will be suitable for academics and those working in R&D in industry looking to learn more about cheaper and more effective methods to produce metal oxides for use in the fields of electronics, photonics, biophotonics and engineering.
- Reviews the latest advances in the utilization of metal oxide materials in photonics, optoelectronics and optics-based medical applications
- Considers the most relevant synthesis strategies for the development of high-performing metal oxide-based devices
- Addresses a wide range of metal oxides including photonic crystals, fibers, metastructures, glasses, and more
Materials Scientists and Engineers. Chemists
- Cover
- Title page
- Table of Contents
- Copyright
- Contributors
- Series editor biography
- Preface to the series
- Preface
- Section A: Technology and properties
- 1: Metal oxides for optoelectronic and photonic applications: A general introduction
- Abstract
- 1: Introduction
- 2: Properties of MOs
- 3: Chemical methods of MO synthesis
- 4: Physical methods of MO synthesis
- 5: Concluding remarks/conclusions
- References
- 2: Recent developments in optoelectronic and photonic applications of metal oxides
- Abstract
- 1: Introduction
- 2: Metal oxides (MOs) for various applications
- 3: Role of metal oxides for thin-film technology
- 4: Optoelectronic properties of metal oxides
- 5: Conclusion
- References
- 3: Metal oxide-based glasses and their physical properties
- Abstract
- Acknowledgments
- 1: Introduction
- 2: Preparation of metal oxide glasses
- 3: Properties of metal oxide glasses
- 4: Future aspects and applications
- 5: Summary and conclusions
- References
- 4: Metal oxide-based optical fibers (preparation, composition, composition-linked properties, physical parameters, and theoretical calculations)
- Abstract
- 1: Introduction
- 2: Fabrication of optical fibers
- 3: Metal oxides in optical fibers formation
- 4: Applications of optical fiber
- 5: Conclusions
- References
- Section B: Optoelectronic and photonic applications
- 5: Metal oxide-based LED and LASER: Theoretical concepts, conventional devices, and LED based on quantum dots
- Abstract
- 1: Introduction
- 2: Different metal oxide nanostructures for light-emitting diodes (LEDs) and UV detectors
- 3: Metal oxide-based LASER diodes
- 4: Quantum dots used for LEDs, LASERs, and conventional devices
- 5: Conclusions
- 6: Recommendations
- References
- 6: Metal oxide-based photodetectors (from IR to UV)
- Abstract
- 1: Introduction
- 2: Basic mechanism of metal oxide-based photodetection
- 3: Fundamental parameters of metal oxide-based photodetectors
- 4: Metal oxide-based photodetectors: Material selection, device design, and photosensing performances
- 5: Biomedical applications of metal oxide-based photodetectors
- 6: Conclusions and perspectives
- References
- 7: Optical and optoelectronic metal oxide-based sensors; (optical sensors, principle, computational modeling, and application-based development)
- Abstract
- 1: Introduction
- 2: Zinc oxide nanowires
- 3: Deposition by using RF sputtering
- 4: Optical properties of the ZnO nanowires
- 5: Gas sensing mechanism
- 6: Experiment procedure
- 7: Optical H2 gas sensing setup
- 8: Results and discussion
- 9: Conclusion
- References
- 8: Passive optoelectronic elements
- Abstract
- 1: Introduction to the fundamentals of passive optoelectronics
- 2: Relevant metal oxides for passive optoelectronics and their advantages
- 3: Conclusions
- References
- 9: Metal oxide photonic crystals and their application (designing, properties, and applications)
- Abstract
- 1: Introduction
- 2: Structure
- 3: Synthetic strategies for PCs
- 4: Application
- 5: Conclusion
- References
- 10: Heavy metal oxide glasses and their optoelectronic applications (infrared transmission, luminescence, nonlinear optical susceptibilities, etc.)
- Abstract
- Acknowledgment
- 1: Introduction
- 2: Optical properties of rare-earth ion-doped bismuth- and lead-containing borate glasses
- 3: Optical properties and applications of lead (II) oxide (PbO) glasses
- 4: Conclusions
- References
- 11: Integrated optoelectronics
- Abstract
- 1: Introduction
- 2: Electrooptical phenomena
- 3: Integrated photonic devices
- 4: Waveguides including metal oxide glasses
- 5: Light modulators
- 6: Optical switches
- 7: Metal oxides designed for these applications
- 8: Manufacturing features
- 9: Conclusion
- References
- Section C: Metal oxide-based optoelectronic devices in biomedical applications
- 12: Metal oxide-based fiber technology in the pharmaceutical and medical chemistry
- Abstract
- Funding
- Conflict of interest
- 1: Introduction
- 2: Electrospinning—Cutting edge technology
- 3: Feed materials for electrospinning
- 4: Applications of electrospun nanofibers in biomedical & environmental sector
- 5: Conclusion and future outlook
- References
- 13: Metal oxide-involved photocatalytic technology in cosmetics and beauty products
- Abstract
- 1: Introduction
- 2: Overview of MONPs and their applications
- 3: MONPs in cosmetics and beauty/personal care products
- 4: Photocatalytic activity of MONPs in sunscreen products
- 5: Conclusions and future perspectives
- References
- 14: Illuminating metal oxides containing luminescent probes for personalized medicine
- Abstract
- 1: Introduction
- 2: Zinc oxide materials
- 3: Titanium oxide materials
- 4: Other metal oxides
- 5: Conclusion
- References
- 15: Metal oxide nanostructures and their biological applications (nonlinear photonics, plasmonic nanostructures, etc.)
- Abstract
- 1: Introduction
- 2: Surface modification of metal oxide NPs: Biocompatibility and surface properties
- 3: Main types of metal oxide nanoparticles with potential use in biomedicine
- 4: Applications in biosystems
- 5: Applications based on thermal effects
- 6: Applications of MONPs in biomedicine
- 7: Nanotoxicology
- 8: Conclusions
- References
- Index
- No. of pages: 446
- Language: English
- Edition: 1
- Published: July 1, 2022
- Imprint: Elsevier
- Paperback ISBN: 9780323858243
- eBook ISBN: 9780323858250
SS
Suresh Sagadevan
Dr. Suresh Sagadevan is a Senior Research Fellow at the Nanotechnology & Catalysis Research Center at the University of Malaya in Malaysia. His research interests include crystal growth, semiconductors, nanostructured materials, nanomaterials, nanocomposites, biomaterials, thin films, metal sulfide and nanocomposite materials and graphene with metal oxide materials.
Affiliations and expertise
Senior Research Fellow, Nanotechnology and Catalysis Research Centre, University of Malaya, Kuala Lumpur, MalaysiaJP
Jiban Podder
Dr. Jiban Podder is a Professor in the Department of Physics at Bangladesh University of Engineering and Technology. His research expertise is in the synthesis and characterization of transparent conducting metal oxide and diluted magnetic semiconductor thin films for solar cells, gas sensors and optoelectronic applications.
Affiliations and expertise
Professor, Department of Physics, Bangladesh University of Engineering and Technology, Dhaka, BangladeshFM
Faruq Mohammad
Dr. Faruq Mohammad is an Assistant Professor in the Department of Chemistry at the College of Science, King Saud University in Saudi Arabia. His post-doctoral research focused on the development of nanoparticle-based formulations for cancer diagnosis and treatment, nano drug delivery, and the understanding of the toxicity of nanomaterials.
Affiliations and expertise
Assistant Professor, Department of Chemistry, College of Science, King Saud University, Riyadh, Saudi ArabiaRead Metal Oxides for Optoelectronics and Optics-Based Medical Applications on ScienceDirect