Verfügbarkeit: Luminescent materials and applications

Luminescent materials and applications:

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Bibliographische Detailangaben
1. Verfasser:	Kitai, Adrian (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley 2008
Schriftenreihe:	Wiley series in materials for electronic & optoelectronic applications
Schlagworte:	Dispositifs électroluminescents - Matériaux Luminescence Électroluminescence Electroluminescent devices > Materials Electroluminescence Lumineszenz Elektrolumineszenz Aufsatzsammlung
Online-Zugang:	Table of contents only Publisher description Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	IX, 278 S. Ill., graph. Darst.
ISBN:	0470058188 9780470058183

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adam_text	Contents Series Preface Preface 1 Principles of Luminescence Adrian H. Kitai LI Introduction .2 Radiation Theory 1.3 Simple Harmonic Radiator .4 Quantum Description .5 Selection Rules .6 Einstein Coefficients .7 Harmonic Perturbation .8 Blackbody Radiation 1.9 Dipole-Dipole Energy Transfer 1.10 Energy Levels in Atoms 1.11 Crystal Field Splitting Acknowledgement References XI xiii 1 1 4 5 7 8 9 12 15 16 17 18 18 2 Phosphor Quantum Dots 19 Debasis Bera, Lei Qian and Paul H. Holloway 2.1 Introduction 19 2.2 Nanostructured Materials 22 2.3 Quantum Dots 23 2.3.1 History of quantum dots 24 2.3.2 Structure and properties relationship 25 2.3.3 Quantum confinement effects on band gap 26 2.4 Relaxation Processes of Excitons 30 2.4.1 Radiative relaxation .. 31 2.4.2 Non-radiative relaxation process 34 2.5 Blinking Effect . !. 35 2.6 Surface Passivation 35 2.6.1 Organically capped Qdots 36 2.6.2 Inorganically _passivated Qdots 37 vi CONTENTS 2.7 Synthesis Processes 38 2.7.1 Top-down synthesis 38 2.7.2 Bottom-up approach 39 2.8 Optical Properties and Applications 42 2.8.1 II-VIQdots 42 2.8.2 IH-V Qdots 62 2.8.3 IV-VI Qdots 63 2.9 Perspective 64 Acknowledgement 65 References 65 3 Color Conversion Phosphors for LEDS 75 Jack Silver and Robert Withnall 3.1 Introduction 75 3.2 Disadvantages of using LEDs without Color Conversion Phosphors 76 3.3 Phosphors for Converting the Color of Light Emitted by LEDs 79 3.3.1 General considerations 79 3.3.2 Requirements of color conversion phosphors 79 3.3.3 Commonly used activators in color conversion phosphors 81 3.3.4 Strategies for generating white light from LEDs 81 3.3.5 Outstanding problems with color conversion phosphors for LEDs 82 3.4 Survey of the Synthesis and Properties of some Currently Available Color Conversion Phosphors 83 3.4.1 Phosphor synthesis 83 3.4.2 Metal oxide-based phosphors 83 3.4.3 Metal sulfide-based phosphors 95 3.4.4 Metal nitrides 100 3.4.5 Alkaline earth metal oxo-nitrides 102 3.5 Multi-Phosphor pcLEDs 102 3.6 Quantum Dots 103 3.7 Conclusions 104 Acknowledgements 104 References 104 4 Development of White OLED Technology for Application in Full-Color Displays and Solid-State Lighting 111 T. K. Hatwar and Jeff Spindler 4.1 Introduction 111 4.2 Generation of White Light 112 4.2.1 High-performance 2-layer white OLED architecture 113 4.2.2 Optimization of white color-two emitting layer (yellow/blue) configuration 114 4.2.3 White OLED device performance 117 4.2.4 White stability comparison with other colors and the mechanism of operational stability 120 4.2.5 Method of emitter selection to obtain suitable white color 121 4.3 White OLEDs for Display Applications 122 4.3.1 Methods of color patterning 122 4.3.2 OLED full color displays 124 CONTENTS vii 4.3.3 Development of RGBW 4-pixel pattern 126 4.3.4 Full-color displays based on the RGBW format 127 4.3.5 White OLED structures for improved color gamut 128 4.3.6 Low-voltage white OLEDs 128 4.4 White OLED Tandem Architecture 130 4.4.1 Tandem architecture 131 4.4.2 Optimization of tandem stacks 131 4.4.3 Performance of tandem structure 133 4.4.4 Tandem structures for improved color gamut 135 4.4.5 Full-color displays using white OLED tandems 136 4.4.6 White tandem and improved color filters for wide color gamut 137 4.5 White OLEDs Based on Triplets 140 4.5.1 White based on fluorescent and phosphorescent emitters 141 4.5.2 Hybrid tandem-white OLEDs 141 4.6 White OLEDs Based on Conjugated Polymers 142 4.7 White OLEDs for Solid-State Lighting 143 4.7.1 Performance and cost goals for OLED lighting 143 4.7.2 Color rendition improvement using tandem white 144 4.7.3 Light extraction and enhancement using scattering layer 145 4.7.4 Top-emitting white with scattering layer 146 4.7.5 Prototypes of SSL panels 147 4.8 Advanced Manufacturing of Large-Area Coatings 149 4.8.1 Vacuum-thermal evaporation using linear sources 150 4.8.2 Flash evaporation sources 152 4.8.3 Thin-film encapsulation 153 4.9 Future Outlook 155 Acknowledgements 156 References 156 5 Polymer Light-Emitting Electrochemical Cells 161 Jim Gao 5.1 Introduction 161 5.1.1 EL from organic small molecules 162 5.1.2 Electroluminescence from conjugated polymers 163 5.1.3 Polymer light-emitting electrochemical cells 167 5.2 LEC Operating Mechanism and Device Characteristics 168 5.2.1 LEC Operating mechanism 168 5.2.2 LEC device characteristics 171 5.3 LEC Materials 176 5.3.1 Luminescent polymers 176 5.3.2 Electrolyte materials 180 5.4 Frozen-Junction LECs 183 5.5 Planar LECs 188 5.5.1 Planar LECs with millimeter interelectrode spacing 190 5.5.2 LECs with a relaxed p-n junction 195 5.5.3 Polymer bulk homqjunction LECs 196 5.6 Conclusions and Outlook 201 References 202 viii CONTENTS 6 LED Materials and Devices 207 Tsunemasa Taguchi 6.1 Introduction 207 6.2 LED Structures and Efficiencies 208 6.3 Typical LEDs and Features 211 6.4 Generation of White Light 212 6.4.1 Two methods 212 6.4.2 Characteristics of n-UV white LEDs 214 6.4.3 Design and system 217 6.5 Devices and Applications 218 6.6 Future Prospects 220 6.7 Conclusions 222 References 222 7 Thin Film Electroluminescence 223 Adrian H. Kltai 7.1 Introduction 223 7.2 Background of EL 223 7.2.1 Thick film dielectric EL structure 224 7.2.2 Ceramic sheet dielectric EL 225 7.2.3 Thick top dielectric EL 226 7.2.4 Sphere-supported thin film EL 226 7.3 Theory of Operation 226 7.4 Electroluminescent Phosphors 233 7.5 Device Structures 235 7.5.1 Glass substrate thin film dielectric EL 235 7.5.2 Thick film dielectric EL 237 7.5.3 Ceramic sheet dielectric EL 240 7.5.4 Thick rear dielectric EL devices 240 7.5.5 Sphere-supported thin film EL (SSTFEL) 241 7.6 EL Phosphor Thin Film Growth 242 7.6.1 Vacuum evaporation 242 7.6.2 Atomic layer deposition 243 7.6.3 Sputter deposition 244 7.7 Full-Color Electroluminescence 245 7.7.1 Color by white 245 7.7.2 Patterned phosphors 246 7.7.3 Color by blue 246 7.8 Conclusions 247 References 248 8 AC Powder Electroluminescence 249 Feng Chen and Yingwei Xiang 8.1 Background 249 8.1.1 Direct current powder electroluminescence (DCPEL) 249 8.1.2 AC powder electroluminescence (ACPEL) 252 8.2 Structure and Materials of AC Powder EL Devices 254 CONTENTS ix 8.3 The Mechanism of Light Emission for AC ZnS-Powder-EL Device 257 8.4 EL Characteristics of AC Powder EL Materials 261 8.5 Preparation of Powder EL materials 262 8.5.1 Preparation of pure II-VI compounds (starting materials) 263 8.5.2 Activators (dopants) 264 8.5.3 EL emission spectra 264 8.6 Limitations of AC Powder EL Devices 265 8.6.1 Lifetime and luminance degradation 265 8.6.2 Luminance and relative high operating voltage 266 8.6.3 Moisture and operating environment 266 8.7 Applications of ACPEL 267 References 267 Index 269
adam_txt	Contents Series Preface Preface 1 Principles of Luminescence Adrian H. Kitai LI Introduction .2 Radiation Theory 1.3 Simple Harmonic Radiator .4 Quantum Description .5 Selection Rules .6 Einstein Coefficients .7 Harmonic Perturbation .8 Blackbody Radiation 1.9 Dipole-Dipole Energy Transfer 1.10 Energy Levels in Atoms 1.11 Crystal Field Splitting Acknowledgement References XI xiii 1 1 4 5 7 8 9 12 15 16 17 18 18 2 Phosphor Quantum Dots 19 Debasis Bera, Lei Qian and Paul H. Holloway 2.1 Introduction 19 2.2 Nanostructured Materials 22 2.3 Quantum Dots 23 2.3.1 History of quantum dots 24 2.3.2 Structure and properties relationship 25 2.3.3 Quantum confinement effects on band gap 26 2.4 Relaxation Processes of Excitons 30 2.4.1 Radiative relaxation . 31 2.4.2 Non-radiative relaxation process 34 2.5 Blinking Effect ."!. 35 2.6 Surface Passivation 35 2.6.1 Organically capped Qdots 36 2.6.2 Inorganically _passivated Qdots 37 vi CONTENTS 2.7 Synthesis Processes 38 2.7.1 Top-down synthesis 38 2.7.2 Bottom-up approach 39 2.8 Optical Properties and Applications 42 2.8.1 II-VIQdots 42 2.8.2 IH-V Qdots 62 2.8.3 IV-VI Qdots 63 2.9 Perspective 64 Acknowledgement 65 References 65 3 Color Conversion Phosphors for LEDS 75 Jack Silver and Robert Withnall 3.1 Introduction 75 3.2 Disadvantages of using LEDs without Color Conversion Phosphors 76 3.3 Phosphors for Converting the Color of Light Emitted by LEDs 79 3.3.1 General considerations 79 3.3.2 Requirements of color conversion phosphors 79 3.3.3 Commonly used activators in color conversion phosphors 81 3.3.4 Strategies for generating white light from LEDs 81 3.3.5 Outstanding problems with color conversion phosphors for LEDs 82 3.4 Survey of the Synthesis and Properties of some Currently Available Color Conversion Phosphors 83 3.4.1 Phosphor synthesis 83 3.4.2 Metal oxide-based phosphors 83 3.4.3 Metal sulfide-based phosphors 95 3.4.4 Metal nitrides 100 3.4.5 Alkaline earth metal oxo-nitrides 102 3.5 Multi-Phosphor pcLEDs 102 3.6 Quantum Dots 103 3.7 Conclusions 104 Acknowledgements 104 References 104 4 Development of White OLED Technology for Application in Full-Color Displays and Solid-State Lighting 111 T. K. Hatwar and Jeff Spindler 4.1 Introduction 111 4.2 Generation of White Light 112 4.2.1 High-performance 2-layer white OLED architecture 113 4.2.2 Optimization of white color-two emitting layer (yellow/blue) configuration 114 4.2.3 White OLED device performance 117 4.2.4 White stability comparison with other colors and the mechanism of operational stability 120 4.2.5 Method of emitter selection to obtain suitable white color 121 4.3 White OLEDs for Display Applications 122 4.3.1 Methods of color patterning 122 4.3.2 OLED full color displays 124 CONTENTS vii 4.3.3 Development of RGBW 4-pixel pattern 126 4.3.4 Full-color displays based on the RGBW format 127 4.3.5 White OLED structures for improved color gamut 128 4.3.6 Low-voltage white OLEDs 128 4.4 White OLED Tandem Architecture 130 4.4.1 Tandem architecture 131 4.4.2 Optimization of tandem stacks 131 4.4.3 Performance of tandem structure 133 4.4.4 Tandem structures for improved color gamut 135 4.4.5 Full-color displays using white OLED tandems 136 4.4.6 White tandem and improved color filters for wide color gamut 137 4.5 White OLEDs Based on Triplets 140 4.5.1 White based on fluorescent and phosphorescent emitters 141 4.5.2 Hybrid tandem-white OLEDs 141 4.6 White OLEDs Based on Conjugated Polymers 142 4.7 White OLEDs for Solid-State Lighting 143 4.7.1 Performance and cost goals for OLED lighting 143 4.7.2 Color rendition improvement using tandem white 144 4.7.3 Light extraction and enhancement using scattering layer 145 4.7.4 Top-emitting white with scattering layer 146 4.7.5 Prototypes of SSL panels 147 4.8 Advanced Manufacturing of Large-Area Coatings 149 4.8.1 Vacuum-thermal evaporation using linear sources 150 4.8.2 Flash evaporation sources 152 4.8.3 Thin-film encapsulation 153 4.9 Future Outlook 155 Acknowledgements 156 References 156 5 Polymer Light-Emitting Electrochemical Cells 161 Jim Gao 5.1 Introduction 161 5.1.1 EL from organic small molecules 162 5.1.2 Electroluminescence from conjugated polymers 163 5.1.3 Polymer light-emitting electrochemical cells 167 5.2 LEC Operating Mechanism and Device Characteristics 168 5.2.1 LEC Operating mechanism 168 5.2.2 LEC device characteristics 171 5.3 LEC Materials 176 5.3.1 Luminescent polymers 176 5.3.2 Electrolyte materials 180 5.4 Frozen-Junction LECs 183 5.5 Planar LECs 188 5.5.1 Planar LECs with millimeter interelectrode spacing 190 5.5.2 LECs with a relaxed p-n junction 195 5.5.3 Polymer bulk homqjunction LECs 196 5.6 Conclusions and Outlook 201 References 202 viii CONTENTS 6 LED Materials and Devices 207 Tsunemasa Taguchi 6.1 Introduction 207 6.2 LED Structures and Efficiencies 208 6.3 Typical LEDs and Features 211 6.4 Generation of White Light 212 6.4.1 Two methods 212 6.4.2 Characteristics of n-UV white LEDs 214 6.4.3 Design and system 217 6.5 Devices and Applications 218 6.6 Future Prospects 220 6.7 Conclusions 222 References 222 7 Thin Film Electroluminescence 223 Adrian H. Kltai 7.1 Introduction 223 7.2 Background of EL 223 7.2.1 Thick film dielectric EL structure 224 7.2.2 Ceramic sheet dielectric EL 225 7.2.3 Thick top dielectric EL 226 7.2.4 Sphere-supported thin film EL 226 7.3 Theory of Operation 226 7.4 Electroluminescent Phosphors 233 7.5 Device Structures 235 7.5.1 Glass substrate thin film dielectric EL 235 7.5.2 Thick film dielectric EL 237 7.5.3 Ceramic sheet dielectric EL 240 7.5.4 Thick rear dielectric EL devices 240 7.5.5 Sphere-supported thin film EL (SSTFEL) 241 7.6 EL Phosphor Thin Film Growth 242 7.6.1 Vacuum evaporation 242 7.6.2 Atomic layer deposition 243 7.6.3 Sputter deposition 244 7.7 Full-Color Electroluminescence 245 7.7.1 Color by white 245 7.7.2 Patterned phosphors 246 7.7.3 Color by blue 246 7.8 Conclusions 247 References 248 8 AC Powder Electroluminescence 249 Feng Chen and Yingwei Xiang 8.1 Background 249 8.1.1 Direct current powder electroluminescence (DCPEL) 249 8.1.2 AC powder electroluminescence (ACPEL) 252 8.2 Structure and Materials of AC Powder EL Devices 254 CONTENTS ix 8.3 The Mechanism of Light Emission for AC ZnS-Powder-EL Device 257 8.4 EL Characteristics of AC Powder EL Materials 261 8.5 Preparation of Powder EL materials 262 8.5.1 Preparation of pure II-VI compounds (starting materials) 263 8.5.2 Activators (dopants) 264 8.5.3 EL emission spectra 264 8.6 Limitations of AC Powder EL Devices 265 8.6.1 Lifetime and luminance degradation 265 8.6.2 Luminance and relative high operating voltage 266 8.6.3 Moisture and operating environment 266 8.7 Applications of ACPEL 267 References 267 Index 269
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spelling	Kitai, Adrian Verfasser aut Luminescent materials and applications Adrian Kitai Hoboken, NJ Wiley 2008 IX, 278 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley series in materials for electronic & optoelectronic applications Includes bibliographical references and index Dispositifs électroluminescents - Matériaux ram Luminescence ram Électroluminescence ram Electroluminescent devices Materials Electroluminescence Luminescence Lumineszenz (DE-588)4135964-1 gnd rswk-swf Elektrolumineszenz (DE-588)4151823-8 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Lumineszenz (DE-588)4135964-1 s DE-604 Elektrolumineszenz (DE-588)4151823-8 s http://www.loc.gov/catdir/enhancements/fy0745/2007037113-t.html Table of contents only http://www.loc.gov/catdir/enhancements/fy0745/2007037113-d.html Publisher description HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016254098&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kitai, Adrian Luminescent materials and applications Dispositifs électroluminescents - Matériaux ram Luminescence ram Électroluminescence ram Electroluminescent devices Materials Electroluminescence Luminescence Lumineszenz (DE-588)4135964-1 gnd Elektrolumineszenz (DE-588)4151823-8 gnd
subject_GND	(DE-588)4135964-1 (DE-588)4151823-8 (DE-588)4143413-4
title	Luminescent materials and applications
title_auth	Luminescent materials and applications
title_exact_search	Luminescent materials and applications
title_exact_search_txtP	Luminescent materials and applications
title_full	Luminescent materials and applications Adrian Kitai
title_fullStr	Luminescent materials and applications Adrian Kitai
title_full_unstemmed	Luminescent materials and applications Adrian Kitai
title_short	Luminescent materials and applications
title_sort	luminescent materials and applications
topic	Dispositifs électroluminescents - Matériaux ram Luminescence ram Électroluminescence ram Electroluminescent devices Materials Electroluminescence Luminescence Lumineszenz (DE-588)4135964-1 gnd Elektrolumineszenz (DE-588)4151823-8 gnd
topic_facet	Dispositifs électroluminescents - Matériaux Luminescence Électroluminescence Electroluminescent devices Materials Electroluminescence Lumineszenz Elektrolumineszenz Aufsatzsammlung
url	http://www.loc.gov/catdir/enhancements/fy0745/2007037113-t.html http://www.loc.gov/catdir/enhancements/fy0745/2007037113-d.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016254098&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kitaiadrian luminescentmaterialsandapplications

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