Advanced Materials for Solid State Lighting / Vijay Kumar, Vishal Sharma, Hendrik C. Swart, editors.
Kumar, Vijay, 1983-; Sharma, Vishal.; Swart, Hendrik C.
2023
TH7725
Available Online

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Title Advanced Materials for Solid State Lighting / Vijay Kumar, Vishal Sharma, Hendrik C. Swart, editors.
ISBN 9789819941452
9819941458
981994144X
9789819941445
DOI https://doi.org/10.1007/978-981-99-4145-2
Imprint Singapore : Springer, 2023.
Language English
Description 1 online resource (vi, 402 pages) : illustrations (chiefly color).
Other Standard Identifiers 10.1007/978-981-99-4145-2 doi
Call Number TH7725
Dewey Decimal Classification 621.32/1
Summary This book highlights the synthesis, luminescence, and applications of rare earth-doped phosphors materials for solid-state lighting. Solid-state lighting is turning into a leading technology in the lighting industry, permitting improvement in the fields from architectural to domestic applications. Driven with the aid of using ongoing multi-field research, solid-state lighting needs an improvement of various technologies: efficient and reliable light-emitting devices, devices for new functionalities, and optical solutions for beam shaping. Noteworthy research endeavors were aimed to find out eco-friendly, better performance, cost, and energy-efficient phosphor materials for the application in solid-state lighting devices. Power phosphor materials with advanced optical and photoluminescence properties in a wide range of areas have shared the research efforts in this sector aimed in the direction of achieving better material features. Rare earth ion-doped phosphor materials have been the subject of scientific interest because of their significant applications in a variety of fields such as display devices, temperature sensors, solar cells, bio-imaging, and optoelectronics devices. This book covers the broad aspects of organic and inorganic materials based on phosphor materials and is beneficial to researchers involved in these areas. This book is specially designed to provide an introductory concept of luminescent materials, particularly man-made (artificial) phosphors in a language comprehensible to beginners and students. The book also includes some new materials with promising technologies and upgraded properties that expose new potential possibilities are also highlighted.
Access Note Access limited to authorized users.
Source of Description Description based upon print version of record.
Added Author Kumar, Vijay, 1983-
Sharma, Vishal.
Swart, Hendrik C.
Series Progress in optical science and photonics ; 25.
Available in Other Form Advanced Materials for Solid State Lighting
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Intro
Contents
Rare-Earth Doped Inorganic Materials for Light-Emitting Applications
1 Introduction
2 Electroluminescent Device
3 Properties of Phosphor
3.1 Emission Spectrum
3.2 Excitation Spectrum
3.3 Thermal Behavior
3.4 Quantum Efficiency
3.5 Long-Term Stability
3.6 Saturation
4 Relevance of Transition Metal Ions in LED Phosphor
5 Some Phosphor Hosts
5.1 Oxide Phosphors
5.2 Phosphate-Based Phosphor
5.3 Silicate-Based Phosphor
6 Conclusions
References
Charge Transfer in Rare-Earth-Doped Inorganic Materials
1 Introduction

2 Oxides-Based Phosphors for Solid-State Lighting Applications
3 Phosphate-Based Phosphors for Solid-State Lighting Applications
4 Aluminates-Based Phosphors for Solid-State Lighting Applications
5 Sulfate-Based Phosphors for Solid-State Lighting Applications
6 Charge Transfer Mechanism in Rare-Earth-Doped Phosphors
7 Conclusions
References
ZnO-Based Phosphors Materials
1 Introduction
2 Crystal Structure of ZnO
3 Experimental Work
3.1 Synthesis Methods
3.2 Luminescence of ZnO Nanostructure-Related Phosphors

3.3 Luminescence of ZnO Nanostructured Doped with RE Ions
4 Potential Applications
4.1 Sensing
4.2 Optical Fibre Sensing
4.3 Gas Sensing
4.4 Photo Detector
4.5 Display Screens
4.6 Optoelectronic Technology
4.7 Li-Ion Battery
4.8 Catalysis Applications
4.9 Medical Applications
5 Conclusions
References
Dynamics of Perovskite Titanite Luminescent Materials
1 Introduction
2 Synthesis Methods
3 Potential Applications
3.1 Applications of Undoped and Rare-Earth-Doped ZnTiO3
3.2 Applications of Undoped and Rare-Earth-Doped CaTiO3
4 Conclusions

4.10 In Shielding
5 Conclusions
References
Luminescence Properties of Rare-Earth-Doped CaO Phosphors
1 Introduction
2 Synthesis Methods
2.1 Solid Phase Reaction Method
2.2 Chemical Co-precipitation Method
2.3 Sol-Gel Synthesis Method
2.4 Combustion Method
3 Rare Earth-Activated Luminescence of CaO
3.1 Ce3+-Doped CaO
3.2 Eu3+-Doped CaO
3.3 Sm3+-Doped CaO
3.4 Pr3+-Doped CaO
3.5 Yb3+-Doped CaO
4 Doping Other than Rare Earth
4.1 Mn2+-Doped CaO
4.2 Bi-Doped CaO
5 Conclusions
References

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