Phosphor Handbook
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Phosphor Handbook
Experimental Methods for Phosphor Evaluation and Characterization
Liu, Ru-Shi; Wang, Xiaojun
Taylor & Francis Ltd
01/2022
564
Dura
Inglês
9780367555153
15 a 20 dias
1238
Descrição não disponível.
1. 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 Photoluminescence 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 Bioapplications. 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.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Crystal Field;Crystal Field Strength;Crystal Field Splitting;XANES Spectroscopy;Tanabe Sugano Diagram;Racah Parameters;Lanthanide Ions;XANES Spectrum;Emission Band;American Chemical Society;Tunable Luminescence;TL Glow Curve;Ln Ions;Activator Ions;NIR Light;Transition Metal;Local Coordination Environment;Centroid Shift;Fluoride Phosphors;Stronger Crystal Field;Luminescence Center;D54 Mg;Average Bond Length;Crystallographic Site;Combinatorial Libraries
1. 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 Photoluminescence 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 Bioapplications. 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.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Crystal Field;Crystal Field Strength;Crystal Field Splitting;XANES Spectroscopy;Tanabe Sugano Diagram;Racah Parameters;Lanthanide Ions;XANES Spectrum;Emission Band;American Chemical Society;Tunable Luminescence;TL Glow Curve;Ln Ions;Activator Ions;NIR Light;Transition Metal;Local Coordination Environment;Centroid Shift;Fluoride Phosphors;Stronger Crystal Field;Luminescence Center;D54 Mg;Average Bond Length;Crystallographic Site;Combinatorial Libraries
