Advanced Photonic Devices for Energy and Sensing Applications

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

Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.

• Física da Matéria Condensada (física do estado sólido e estado líquido)
• A tecnologia laser e holografia
• Física óptica
• Física das partículas e da energia elevada
• Engenharia dos instrumentos e da instrumentação
• Dispositivos e materiais electrónicos
• Engenharia electrotécnica

Light for energy production;Photonic Devices;plasmonic biosensors;quantum sensing;Surface plasmon resonance;metamaterials engineering;Photoelectrochemical Process;triboelectric nanogenerators;Biosensors;artificial intelligence sensors;Optical Sensor;surface enhanced Raman scattering;optical sensor technology for energy applications;Artificial Intelligence for Sensors;Materials for Photocatalysis;Photovoltaics