Call for Chapters: Surface Plasmon Resonance Technology and Intelligent Sensing

Editors

AZHAR SHADAB, G.L.Bajaj Institute of Technology and Management, Greater Noida, U.P, India, India
PURNENDU PANDEY, G.L.Bajaj Institute of Technology and Management, Greater Noida, U.P, India, India
Mayank Singh, G.L.Bajaj Institute of Technology and Management, Greater Noida, U.P, India, India
MANOJ KUMAR, MLR Institute of Technology, Hyderabad, India, India
Yadvendra Singh, School of Electrical Engineering and Computer Science, Oregon State University, Corvallis, Oregon, USA, United States

Call for Chapters

Proposals Submission Deadline: May 5, 2024
Full Chapters Due: July 28, 2024
Submission Date: July 28, 2024

Introduction

Surface Plasmon Resonance (SPR) sensing technology has become increasingly popular in several industries, such as biomedical, environmental monitoring, and food safety. This is because of its remarkable sensitivity, real-time analysis capabilities, and label-free detection, which have transformed analytical methods and fostered advancements in research and practical applications. The integration of 2D materials has revolutionized the field of surface plasmon resonance (SPR) sensing, resulting in the creation of extremely sensitive and adaptable sensors with numerous potential uses in the chemical, physical, biological, and industrial domains. These sensors, often integrated with prism and fiber-optic technologies, leverage the unique properties of two-dimensional materials, such as graphene, WS2, WSe2, transition metal dichalcogenides (TMDs), black phosphorus, MoS2, and others, to enhance their detection capabilities. Furthermore, SPR sensor performance has been further enhanced through the investigation of various nanostructures and heterostructures, providing improved detection sensitivity and specificity. Additionally, SPR sensor performance has been further enhanced through the investigation of various nanostructures and heterostructures, providing improved detection sensitivity and specificity. This technological evolution extends beyond material science into the field of digital technology, where machine learning algorithms are being used more and more to enhance signal processing. These algorithms provide complex data interpretation, ensuring more reliable and accurate sensing results. This combination of cutting-edge materials and digital technology represents a major transformation in the field of SPR sensing and expands the range of industries in which it can be used.

Objective

This thorough and up-to-date publication intends to serve as a vital resource for information regarding the literature on SPR sensing technology. These dynamic fields will be presented with additional research opportunities. The objective is to provide researchers, advanced-level students, and technology developers with the essential resources required to embrace and execute the most recent technological advancements and applications.

Target Audience

This work will be helpful to academicians, researchers, advanced students, and technology developers in expanding their research exposure to relevant themes in advanced technology and applications in SPR sensing technology for Industry 4.0. This will support and enhance their efforts to conduct research in these areas.

Recommended Topics

1. Performance improvement approaches of the SPR Sensor 2. Theoretical and experimental realization of SPR Technique 3. Recent trends in the Simulation analysis of SPR sensors for different applications 4. Machine Learning approach to enhance the SPR analysis 5. Machine Learning algorithms for enhancement of the performance parameter of the SPR sensor 6. Highly sensitive SPR sensor composed of micro-structured optical fibers 7. High-performance surface plasmon resonance fiber sensor based on vector modes 8. Nano-structured designing based on SPR sensor 9. Geometric-featured based Fiber optic/ Prism SPR sensor 10. Recent Trends of 2D nanomaterials coated fiber optic SPR Sensors 11. Recent Trends of 2D nanomaterials coated Prism-based SPR Sensors 12. Surface Plasmon Resonance Clinical Biosensors for Medical Diagnostics 13. Hybrid Heterostructures for SPR Biosensor 14. High Throughput detections using SPR sensors for molecular interactions 15. Design and Analysis of SPR Chemical Sensors assisted by 2-D Materials 16. Analysis of micro displacement using SPR sensor for structure health monitoring 17. Role of SPR sensors in the various industry sectors 18. Future trends in advanced materials for Surface Plasmon Resonance Sensing 19. Future trends in SPR sensor technology for different applications

Submission Procedure

Researchers and practitioners are invited to submit on or before May 5, 2024, a chapter proposal of 1,000 to 2,000 words clearly explaining the mission and concerns of his or her proposed chapter. Authors will be notified by May 19, 2024 about the status of their proposals and sent chapter guidelines.Full chapters are expected to be submitted by July 28, 2024, and all interested authors must consult the guidelines for manuscript submissions at https://www.igi-global.com/publish/contributor-resources/before-you-write/ prior to submission. All submitted chapters will be reviewed on a double-blind review basis. Contributors may also be requested to serve as reviewers for this project.

Note: There are no submission or acceptance fees for manuscripts submitted to this book publication, Surface Plasmon Resonance Technology and Intelligent Sensing. All manuscripts are accepted based on a double-blind peer review editorial process.

All proposals should be submitted through the eEditorial Discovery® online submission manager.



Publisher

This book is scheduled to be published by IGI Global (formerly Idea Group Inc.), an international academic publisher of the "Information Science Reference" (formerly Idea Group Reference), "Medical Information Science Reference," "Business Science Reference," and "Engineering Science Reference" imprints. IGI Global specializes in publishing reference books, scholarly journals, and electronic databases featuring academic research on a variety of innovative topic areas including, but not limited to, education, social science, medicine and healthcare, business and management, information science and technology, engineering, public administration, library and information science, media and communication studies, and environmental science. For additional information regarding the publisher, please visit https://www.igi-global.com. This publication is anticipated to be released in 2025.



Important Dates

May 5, 2024: Proposal Submission Deadline
May 19, 2024: Notification of Acceptance
July 28, 2024: Full Chapter Submission
September 8, 2024: Review Results Returned
October 6, 2024: Final Acceptance Notification
October 13, 2024: Final Chapter Submission



Inquiries

Dr. Azhar Shadab
G.L.Bajaj Institute of Technology and Management, Greater Noida, U.P, India
azharshadab786@gmail.com

Dr. Purnendu Shekhar Pandey
G.L.Bajaj Institute of Technology and Management, Greater Noida, U.P, India
purnenduec@gmail.com

Dr. Mayank Singh
G.L.Bajaj Institute of Technology and Management, Greater Noida, U.P, India
dr.mayank.singh@ieee.org

Dr. Manoj Kumar
MLR Institute of Technology, Hyderabad, India
manojiitism@gmail.com

Dr. Yadvendra Singh
School of Electrical Engineering and Computer Science, Oregon State University, Corvallis, Oregon, USA
singhy3789@gmail.com



Classifications


Science and Engineering
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