This book is a collection of the work of prominent researchers in the field from different countries. The book is unique as it describes both sensors and detectors based on plasmonics and their practical applications in a single book, a feature not found in any book so far.
Plasmonics stems from the surface charge density oscillations at metal–dielectric interface, leading to extremely strong light–matter interactions. In the past few decades, plasmonics has become one of the most favorite fields/techniques in realizing high-performance photonic devices. For this purpose, different new concepts, such as exploration of different radiation frequency regions, two-dimensional materials/heterostructures, and different types of substrates for the excitation of plasmons have been investigated for plasmonics-based sensors and detectors. This book focuses on the recent and advanced works on optical sensors and detectors utilizing plasmonic techniques for opto-electronic applications. The book is unique as it describes both sensors and detectors based on plasmonics and their practical applications in a single book, a feature not found in any book so far.
Arvustused
"This book gives a unique overview of the state of the art in plasmonic sensors and detectors and includes a review of the fundamentals of plasmonics with the help of prism and optical fiber configurations. It introduces the utilization of different materials and structures with their applications in different fields, such as chemistry and biology. It is definitely a useful resource for postgraduate or PhD students as well as an update for researchers working in the field."
Prof. Carlos Ruiz Zamarreño
Public University of Navarra, Spain
"This book appears at a time when plasmonics is one of the most active areas of R&D, with diversified and disruptive technological applications, particularly in the field of sensing. Its editors are international references in the area, which from the outset constitutes a guarantee of quality. This is reflected at various levels, in particular, on the high-ranking level of the authors of the chapters who are recognized researchers in their fields. It gathers the conditions to constitute a reference book in plasmonics-based optical sensing, also pointing out to new horizons for photodetection supported by the phenomenon of photonelectron coherent interactions."
Prof. José Luís Santos
University of Porto, Portugal
1. Fundamental Framework of Plasmonics
2. Surface Plasmon
ResonanceBased Optical Sensors: A Conceptual Framework
3. Plasmonic Sensing
Devices
4. LSPR-Based Optical Sensors and Biosensors
5. Fiber GratingsBased
Plasmonic Sensors
6. Microstructured and Non-Microstructured FiberBased
Plasmonic Sensors for High-Performance and Wide-Range Detection of Different
Parameters
7. Microstructured and Nanostructured Fiber Plasmonic Sensors
8.
Surface-Enhanced Raman ScatteringBased Plasmonic Sensors
9. Effective
Enhancement of Raman Scattering, Fluorescence, and Near-field Imaging
10.
Intrinsic and Extrinsic Polymer Optical Fiber Schemes for Highly Sensitive
Plasmonic Biosensors
11. 2D Materials/Heterostructures/Metasurfaces in
Plasmonic Sensing and Biosensing
12. Design Considerations and Limitations
for Miniature SPR Devices
13. Bottom-Up Fabrication of Plasmonic Sensors and
Biosensors
14. Metallic Nanostructures/Gratings for Plasmon-Enhanced
Photodetection
15. Graphene Plasmonic Mid-Infrared Photodetector
Banshi D. Gupta is a former professor of physics at the Indian Institute of Technology Delhi, India. He has also worked at the University of Guelph (Canada), University of Toronto (Canada), Florida State University (USA), University of Strathclyde (UK), and University of Birmingham (UK). He is author of the books Fiber Optic Sensors: Principles and Applications, 2006; Fiber Optic Sensors Based on Plasmonics, 2015; Optical Sensors for Biomedical Diagnostics and Environmental Monitoring, 2017; and Metal Chalcogenide Biosensors: Fundamentals and Applications, 2023. He has authored more than 300 research articles in international journals and conferences.
Anuj K. Sharma is an associate professor of physics at the National Institute of Technology Delhi, India. He earned his MSc in physics from IIT Roorkee and PhD in physics from IIT Delhi, India. He has also been a recipient of the Alexander von Humboldt fellowship (Germany). He has published more than 110 research articles in international journals. He is associate editor of three international journals: IEEE Sensors Journal, Optical Fiber Technology, and Frontiers in Electronic Materials.
Jin Li is a professor at the Northwest A & F University, China. He serves as an editor in journals: Frontiers in Physics, Frontiers in Materials, Sensors, and Frontiers in Sensors. His research interests include micro-/nanostructured photonics, nanomaterials nonlinear optics, micro-/nanofiber sensors, and integrated optical devices. He has been in charge of more than 10 national and provincial projects and has published more than 50 SCI-indexed papers.
Lisainfo e-raamatute kohta