This book gives a comprehensive overview of recent advancements in both theory and practical implementation of plasmonic probes. Encompassing multiple disciplines, the field of plasmonics provides a versatile and flexible platform for nanoscale sensing and imaging. Despite being a relatively young field, plasmonic probes have come a long way, with applications in chemical, biological, civil, and architectural fields as well as enabling many analytical schemes such as immunoassay, biomarkers, environmental indexing, and water quality sensing, to name but a few. The objective of the book is to…mehr
This book gives a comprehensive overview of recent advancements in both theory and practical implementation of plasmonic probes. Encompassing multiple disciplines, the field of plasmonics provides a versatile and flexible platform for nanoscale sensing and imaging. Despite being a relatively young field, plasmonic probes have come a long way, with applications in chemical, biological, civil, and architectural fields as well as enabling many analytical schemes such as immunoassay, biomarkers, environmental indexing, and water quality sensing, to name but a few. The objective of the book is to present in-depth analysis of the theory and applications of novel probes based on plasmonics, with a broad selection of specially-invited chapters on the development, fabrication, functionalization, and implementation of plasmonic probes as well as their integration with current technologies and future outlook. This book is designed to cater to the needs of novice, seasoned researchers and practitioners in academia and industry, as well as medical and environmental fields.
Produktdetails
Produktdetails
Lecture Notes in Nanoscale Science and Technology 33
Dr. Rajib Biswas is an Assistant Professor at the Department of Physics, Tezpur University, India. He carried out his doctoral research in CSIR Lab-Northeast Institute of Science and Technology. He has been instrumental in designing cost-effective sensing probes engaging optical microscopes, second harmonic generation, Localized surface Plasmon resonance, self-imaging, digital electrodes for environmental applications. He has more than 12 years of teaching experience in biophotonics, photonics, physics, and bioinformatics. He has published more than 75 research articles in the peer-reviewed international journals and is a member of several national and international scientific societies and organizations including, the Optical Society (OSA), Indian Society of Earthquakes (Life Member), Geohazards Research Society. He has been serving as regular reviewer of many International Journals as well as in editorial responsibilities. Dr. Nirmal Mazumder is anAssistant Professor at the Department of Biophysics, Manipal School of Life Sciences, Manipal Academy of Higher Education (MAHE), Manipal, India. He obtained his Ph.D. in 2013 from National Yang Ming Chaio Tung University, Taipei, Taiwan. From 2013 to 2016, he worked as a postdoctoral fellow at the University of Virginia, the USA, and the Italian Institute of Technology, Genoa, Italy. He has been developing nonlinear optical microscopes, including two photon fluorescence, second harmonic generation, coherent anti-Stokes Raman scattering for biomedical applications. He has more than 10 years of teaching experience in biophysics, biophotonics, photonics, physics, and bioinformatics. He has published more than 50 research articles in the peer-reviewed international journals and is a member of several national and international scientific societies and organizations including, the Optical Society (OSA) (Senior member), SPIE-the International Society for Optical Engineering (Senior member),Society of Biological Chemists (I) (Life Member), Environmental Mutagen Society of India (Life Member).
Inhaltsangabe
Chapter 1. Fundamentals of Plasma Oscillation.- Chapter 2. Theory of Plasmonic Probes.- Chapter 3. An analytic overview of equations of substantial state in plasmonic perspective.- Chapter 4. Plasmonics Studies for Molecular Scale Optoelectronics.- Chapter 5. Aluminum: a sustainable universal plasmonic materials.- Chapter 6. Surface plasmon resonance biosensors based on Kretschmann configuration: basic instrumentation and applications.- Chapter 7. Plasmonic nanoprobes for SERS based theranostics applications.- Chapter 8. 2D Nanomaterials based Surface Plasmon Resonance probes for Biosensing applications.- Chapter 9. Plasmonic sensors: an insight into fundamentals, compositions and applications.- Chapter 10. Improved biosensor device to diagnose malaria based on one dimensional photonic crystal.- Chapter 11. U-Bent Fiber Optic Plasmonic Sensors: Fundamentals, Applications, Challenges and Future Directions.- Chapter 12. An appraisal on Plasmonic Heating of Nanostructures.- Chapter 13.Plasmonic nanoparticles for polarization-sensitive analytical techniques.- Chapter 14. Synthesis, conjugation and applications of chiral nanoparticles as plasmonic probes.- Chapter 15. Plasmonic optical imaging of biological samples.- Chapter 16. Deep Tissue High Resolution and Background-free Imaging with Plasmonic SAX microscopy.- Chapter 17. Microfluidic Plasmonic Sensors: Theory and Applications.- Chapter 18. Polyoxometalate based composite materials in sensing applications.- Chapter 19. Plasmonic Random Lasers.
Chapter 1. Fundamentals of Plasma Oscillation.- Chapter 2. Theory of Plasmonic Probes.- Chapter 3. An analytic overview of equations of substantial state in plasmonic perspective.- Chapter 4. Plasmonics Studies for Molecular Scale Optoelectronics.- Chapter 5. Aluminum: a sustainable universal plasmonic materials.- Chapter 6. Surface plasmon resonance biosensors based on Kretschmann configuration: basic instrumentation and applications.- Chapter 7. Plasmonic nanoprobes for SERS based theranostics applications.- Chapter 8. 2D Nanomaterials based Surface Plasmon Resonance probes for Biosensing applications.- Chapter 9. Plasmonic sensors: an insight into fundamentals, compositions and applications.- Chapter 10. Improved biosensor device to diagnose malaria based on one dimensional photonic crystal.- Chapter 11. U-Bent Fiber Optic Plasmonic Sensors: Fundamentals, Applications, Challenges and Future Directions.- Chapter 12. An appraisal on Plasmonic Heating of Nanostructures.- Chapter 13.Plasmonic nanoparticles for polarization-sensitive analytical techniques.- Chapter 14. Synthesis, conjugation and applications of chiral nanoparticles as plasmonic probes.- Chapter 15. Plasmonic optical imaging of biological samples.- Chapter 16. Deep Tissue High Resolution and Background-free Imaging with Plasmonic SAX microscopy.- Chapter 17. Microfluidic Plasmonic Sensors: Theory and Applications.- Chapter 18. Polyoxometalate based composite materials in sensing applications.- Chapter 19. Plasmonic Random Lasers.
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