Description |
1 online resource : illustrations |
Series |
Micro & nano technologies |
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Micro & nano technologies
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Contents |
880-01 1.1.1. Free lanthanide ions: Electronic spectra and nature of wave functions1.1.2. Coulomb repulsion effects; 1.1.3. Spin-orbit coupling; 1.1.4. Crystal field splitting; 1.2. Theoretical description of optical behavior of lanthanides; 1.2.1. Optical transitions; 1.2.2. Judd-Ofelt theory; 1.3. Magnetism of lanthanide ions; 1.3.1. Magnetic properties of free lanthanide ions; 1.3.2. Ab initio description of electronic structure and magnetism in lanthanide complexes; 1.3.3. EPR g-tensor for lanthanide compounds |
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880-01/(S 2.4.4.2. Chemical properties2.4.4.3. Optical properties; 2.5. Eu3+ and Sm3+ β-diketonate complexes state of art; 2.5.1. Review on red phosphors based on other ligands; 2.6. The appeal of Eu3+/Sm3+-based LEDs; 2.7. Key challenges in red OLEDs; 2.8. Future scope on the use of OLEDs in lamps; 2.9. Conclusions; References; Further reading; Chapter 3: Lanthanide ion emission in multicolor OLEDs (Ce3+, Pr3+, Tb3+, Dy3+, Tm3+, and white light Eu3+/Tb3+ hybrid sy ... ; 3.1. Introduction; 3.2. Luminescence; 3.2.1. 4f-4f electronic transitions and the antenna effect |
Bibliography |
Includes bibliographical references and index |
Notes |
Online resource; title from PDF title page (EBSCO, viewed June 18, 2018) |
Subject |
Rare earth metals.
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Light emitting diodes.
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Secondary ion mass spectrometry.
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Metals, Rare Earth
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TECHNOLOGY & ENGINEERING -- Engineering (General)
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TECHNOLOGY & ENGINEERING -- Reference.
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Light emitting diodes
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Rare earth metals
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Secondary ion mass spectrometry
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Form |
Electronic book
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Author |
Martin-Ramos, Pablo, editor
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Ramos-Silva, Manuela, editor
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ISBN |
9780128138410 |
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0128138416 |
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