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Full Description
This book provides a systematic overview of the current state of technologies and future prospects for harnessing light for sustainable energy and advanced sensing applications. It covers advancements in photonics and trends in photocatalysis, photovoltaics, photonic nanogenerators, quantum sensors, and integrated AI/ML in optical sensors.
Advanced Photonics Devices for Energy and Sensing Applications covers emerging trends in optics and photonics for sustainable energy and next-generation sensing. The book is divided into two different sections. The first section focuses on recent developments and opportunities for utilizing photonics for energy applications such as solar cells, photovoltaics, and photocatalysis. The later section is devoted to advanced topics on optical sensor technology including plasmonics-based sensors, waveflex sensors, quantum sensing technologies, and artificial intelligence applications for developing real-world sensors. Key topics include an examination and discussion of plasmon resonance, surface-enhanced Raman scattering, photonic metamaterials, lossy mode resonance, and wave-flex based technologies to develop a variety of sensors for biosensing and explosive detection.
The book serves as both a reference and a source of inspiration for students, researchers, and industry professionals in electrical engineering, chemical engineering, and materials science and engineering who are interested in the transformative power of light for a variety of applications.
Contents
Chapter 1 Perovskite Solar Cells: Advances, Challenges, and Industrialization Roadmap Chapter 2 Luminescent Solar Concentrator: A Semi-Transparent Photovoltaic for Solar Energy Conversion Chapter 3 Recent Developments in Nanostructured Materials for Photocatalysis and Biosensing Applications Chapter 4 Sustainable photonics towards achieving a net-zero economy Chapter 5 Advanced Photonics for Triboelectric Nanogenerators (TENG) Chapter 6 Improvement of solar cell performance using metamaterials through bandgap engineering Chapter 7 Exciton plasmon coupled photonic materials for supercapacitor applications Chapter 8 Optical Biosensing Through Surface Plasmon Resonance: A Review of Techniques and Trends Chapter 9 Metamaterial-Enabled Photonic Sensors for Explosive Detection Chapter 10 Artificial intelligence in developing novel SERS based pathogen sensing Chapter 11 Recent Advances in Microfiber-Based WaveFlex Biosensors for Next-Generation Health Monitoring Chapter 12 Excitonic plasmon coupled surfaces for sensing applications Chapter 13 Zinc Oxide-Based Lossy Mode Resonance Sensors: Principles and Applications Chapter 14 Quantum Plasmonics: A Revolution Beyond Classical Constraints Chapter 15 Advancing Photonic Waveguide Technologies: Strip, Plasmonic, and Beyond for Enhanced Sensing Chapter 16 Designing Photoresponsive Crystals for the Light Energy Harvesting Applications
