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Full Description
Applied Nanoplasmonics: Applications in Chemical Sensing and Radiation Detection dives into the world of plasmonics and its various applications in modern technology. It covers fundamental concepts, detailed nanofabrication methods for creating plasmonic and photonic structures, computational modeling, and practical uses. Notable advancements like plasmonic SERS chemical sensing, absorbing metamaterials, and plasmonic tweezers are comprehensively discussed, bridging the gap between theoretical understanding and practical implementation. In addition to fundamentals, the book reviews surface plasmons and their dispersion, excitation techniques, nanofabrication, and applications in solar energy, radiation sensing, photodetection, and opto-electronic devices.
The chapter on SPASER examines its core principles and limitations, making the book an essential reference for researchers in this multidisciplinary field.
Contents
1. Fundamentals of surface plasmon and excitation
2. Fabrication of plasmonic nanostructures and metasurfaces
3. Surface Enhanced Raman Scattering (SERS) ultrasensitive chemical detection
4. Absorbing metamaterials
5. Chiral absorbing metamaterials
6. Plasmonics in solar energy harvesting
7. Plasmonics in radiation sensing, thermal imaging
8. Plasmonics in photodetection
9. Plasmonics in opto-electronic devices
10. Computational techniques in plasmonics
11. Plasmonic Tweezers
12. SPASER
