This three volume set serves as a complete reference book for readers interested in phosphor research, characterization, synthesis and applications. It provides the complete background and fundamental properties of luminescence and examines the synthesis and optical properties of phosphors used in different applications.
This three volume set serves as a complete reference book for readers interested in phosphor research, characterization, synthesis and applications. It provides the complete background and fundamental properties of luminescence and examines the synthesis and optical properties of phosphors used in different applications.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Ru-Shi Liu is a Distinguished Professor at the Department of Chemistry of the National Taiwan University. Xiao-Jun Wang is presently a Professor at the Department of Physics & Astronomy, Georgia Southern University.
Inhaltsangabe
Volume 1 1. General Introduction and Physics Background. 2. Fundamentals of Luminescence. 3. Principal Phosphor Materials and their Optical Properties. 4. Energy Transfer Processes in Phosphors. 5. Upconversion Luminescence of Nanophosphors. 6. Organic/Polymer Luminescent Materials and Devices. Volume 21. Phosphor converting LED for Lighting. 2. Phosphor-converted LED for Backlighting. 3. Phosphor converting LED for Broadband IR. 4. Laser Phosphors. 5. Smart Phosphors. 6. Quantum Dots for Display Applications. 7. Colloidal Quantum Dots and Their Applications. 8. Lanthanide-doped Upconversion Nanoparticles for Super-resolution Imaging. 9. Upconversion Nanophosphors for Photonic Application. 10. Upconversion Nanophosphors for Bioimaging. 11. Multi-photon Downconversion. 12. Mechanoluminescent phosphors. 13. Long persistent phosphors. 14. Color-tunable Metallophosphors for Organic Light-emitting Diodes (OLEDs. 15. Lanthanide-based Phosphors for Thermometry. 16. Single Crystal Phosphors. 17. Glass Phosphors. 18. X-ray Phosphors and Scintillators. 19. Phosphors-Converting LEDs for Agriculture. 20. AC driven LED Phosphors. 21. Phosphors for Solar Cells. Volume 31. First-principles Methods as a Powerful Tool for Fundamental and Applied Research in the Field of Optical Materials. 2. Crystal Structure Design and Luminescence Performance of NIR Phosphors. 3. Solid Solution Design Toward New Phosphor Discovery and Photolumi-nescence Tuning. 4. Local Structure and Luminescence Tuning in Phosphors. 5. Design of Narrowband Emission Phosphors. 6. Mn4+-doped LED Phosphors. 7. Design Principles to Discover Highly Thermally Stable Phosphor. 8. Combinatorial Chemistry Approach and the Taguchi Method for Phosphors. 9. Energy transfer Between Lanthanide to Lanthanide in Phosphors for Bio Applications. 10. Design Growth of Nanophosphors and Their Applications. 11. Near-Infrared Phosphors with Persistent Luminescence Over 1000 nm for Optical Imaging. 12. High-pressure Study of Phosphors Emission. 13. Absolute Photoluminescence Quantum Yield of Phosphors. 14. Photoionization Analysis on Phosphors. 15. Synchrotron Radiation Analysis on Phosphors.
Volume 1 1. General Introduction and Physics Background. 2. Fundamentals of Luminescence. 3. Principal Phosphor Materials and their Optical Properties. 4. Energy Transfer Processes in Phosphors. 5. Upconversion Luminescence of Nanophosphors. 6. Organic/Polymer Luminescent Materials and Devices. Volume 21. Phosphor converting LED for Lighting. 2. Phosphor-converted LED for Backlighting. 3. Phosphor converting LED for Broadband IR. 4. Laser Phosphors. 5. Smart Phosphors. 6. Quantum Dots for Display Applications. 7. Colloidal Quantum Dots and Their Applications. 8. Lanthanide-doped Upconversion Nanoparticles for Super-resolution Imaging. 9. Upconversion Nanophosphors for Photonic Application. 10. Upconversion Nanophosphors for Bioimaging. 11. Multi-photon Downconversion. 12. Mechanoluminescent phosphors. 13. Long persistent phosphors. 14. Color-tunable Metallophosphors for Organic Light-emitting Diodes (OLEDs. 15. Lanthanide-based Phosphors for Thermometry. 16. Single Crystal Phosphors. 17. Glass Phosphors. 18. X-ray Phosphors and Scintillators. 19. Phosphors-Converting LEDs for Agriculture. 20. AC driven LED Phosphors. 21. Phosphors for Solar Cells. Volume 31. First-principles Methods as a Powerful Tool for Fundamental and Applied Research in the Field of Optical Materials. 2. Crystal Structure Design and Luminescence Performance of NIR Phosphors. 3. Solid Solution Design Toward New Phosphor Discovery and Photolumi-nescence Tuning. 4. Local Structure and Luminescence Tuning in Phosphors. 5. Design of Narrowband Emission Phosphors. 6. Mn4+-doped LED Phosphors. 7. Design Principles to Discover Highly Thermally Stable Phosphor. 8. Combinatorial Chemistry Approach and the Taguchi Method for Phosphors. 9. Energy transfer Between Lanthanide to Lanthanide in Phosphors for Bio Applications. 10. Design Growth of Nanophosphors and Their Applications. 11. Near-Infrared Phosphors with Persistent Luminescence Over 1000 nm for Optical Imaging. 12. High-pressure Study of Phosphors Emission. 13. Absolute Photoluminescence Quantum Yield of Phosphors. 14. Photoionization Analysis on Phosphors. 15. Synchrotron Radiation Analysis on Phosphors.
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