Quantum Materials, Devices, and Applications covers the advances made in quantum technologies, both in research and mass production for applications in electronics, photonics, sensing, biomedical, environmental and agricultural applications. The book includes new materials, new device structures that are commercially available, and many more at the advanced research stage. It reviews the most relevant, current and emerging materials and device structures, organized by key applications and covers existing devices, technologies and future possibilities within a common framework of high-performance quantum devices.
This book will be ideal for researchers and practitioners in academia, industry and those in materials science and engineering, electrical engineering and physics disciplines.
- Comprehensively covers the important and rapidly growing area of quantum technologies by focusing on current and emerging materials, devices and applications
- Takes an applied approach to the topic by addressing key applications in electronics, optoelectronics, photonics, sensing and the environment
- Addresses ethical considerations, remaining challenges and future opportunities for quantum materials and devices
1. Quantum Materials, Diagnostic Devices and Emerging Techniques
2. 2D Quantum Materials and Sensor Devices
3. Superconducting quantum magnetic sensing
4. Quantum Materials and Devices in Environmental Solutions
5. Quantum Materials for Emerging Agrochemicals
6. Quantum dot materials, devices and their photomedical applications
7. Carbon Dots (C-dots) as Bioimaging Probes
8. Quantum Tunneling NEMS Devices for Bio-Medical Applications
9. Advanced Nano-Biomedical Sensors and Nano-Electronic Devices for Health
Care Applications
10. Quantum Dots: An Emerging Implication of Nanotechnology in Cancer
Diagnosis and Therapy
11. Nanotechnology and treatment of COVID-19
12. Nanotechnology for cosmetics applications an innovation Journey
13. Quantum Materials and Spintronic Devices
Dr M. Henini has over 20 years experience of Molecular Beam Epitaxy (MBE) growth and has published >700 papers. He has particular interests in the MBE growth and physics of self-assembled quantum dots using electronic, optical and structural techniques. Leaders in the field of self-organisation of nanostructures will give an account on the formation, properties, and self-organization of semiconductor nanostructures. Dr. Rodrigues is an Adjunct Professor of the Chemistry Institute of the University of Brasķlia-UNB. He served as Chief of the Research and Technological Innovation Sector of the Hospital Universitįrio de Brasķlia-HUB between 2013-2015. He holds a bachelor's degree in Chemistry from the Federal University of Sergipe (2004), a Master's degree in Chemistry from the Federal University of Sergipe (2007), a PhD in Chemistry from the Federal University of Pernambuco (2010) and PhD at Aveiro University. program RH-INCT / INAMI. He has experience in the field of Inorganic Chemistry, with emphasis on synthesis, structural characterization, and spectroscopic studies of coordination compounds.
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