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Titolo: | Light-emitting diodes and optoelectronics [[electronic resource] ] : new research / / Joshua T. Hall and Anton O. Koskinen, editors |
Pubblicazione: | Hauppauge, N.Y., : Nova Science Publishers, Inc., c2012 |
Edizione: | 1st ed. |
Descrizione fisica: | 1 online resource (307 p.) |
Disciplina: | 621.3815/22 |
Soggetto topico: | Light emitting diodes |
Optoelectronic devices | |
Altri autori: | HallJoshua T KoskinenAnton O |
Note generali: | Description based upon print version of record. |
Nota di bibliografia: | Includes bibliographical references and index. |
Nota di contenuto: | Intro -- LIGHT-EMITTING DIODES AND OPTOELECTRONICS -- LIGHT-EMITTING DIODES AND OPTOELECTRONICS -- CONTENTS -- PREFACE -- APPROACHES FOR FABRICATING HIGH EFFICIENCY ORGANIC LIGHT EMITTING DIODE FOR FLAT PANEL DISPLAY AND SOLID STATE LIGHTING: AN OVERVIEW -- ABSTRACT -- 1. INTRODUCTION -- 2. APPROACHES FOR HIGHLY EFFICIENT DEVICES -- 2.1. Device Structure -- 2.1.1. Low Carrier Injection Barrier -- 2.1.2. Effective Carrier Confinement -- 2.1.3. Effective Excitons Generation on Host -- 2.1.4. Effective Host-Guest Energy Transfer -- 2.1.5. Balanced Carrier Injection -- 2.1.6. Carrier Modulation Layer -- 2.1.7. Polymeric Nanodots (PNDs) -- 2.2. Light Outcoupling -- 2.2.1. Substrate Surface Modifications -- 2.2.2. Texturing Mesh Surfaces -- 2.2.3. Multilayer Cathode Structures -- 2.2.4. Aperiodic Dielectric Stacks -- 2.2.5. Microlens Arrays -- 2.2.6. Low Index Grids -- 2.2.7. Effect of Micro-cavities -- 2.2.8. Surface Plasmons -- 2.2.9. Photonic Crystal -- 2.2.10. Effect of Nano Porous Films, Nano Wires, Nano Particles and Nano Pillars -- CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- RELIABILITY ESTIMATION FROM THE JUNCTION TO THE PACKAGING OF LED -- I. CONTEXT AND OBJECTIVES -- II. STATE OF ART OF THE LED MODULE -- III. MODEL OF THE LED MODULE -- 1. Thermal Simulation -- 2. Optical Models -- a. Optical Power Characterizations -- b. Spectral Characterizations -- 3. Electrical Model -- IV. FAILURE ANALYSES -- 1. Ageing Test Conditions - Active Storage -- 2. Analysis of Recombination Current Drift -- a)Failure Mechanism Diagnostic Using Electrical Characterizations -- b. Failure Mechanism Diagnostic Using Optical Characterizations -- 3. Analyses of Leakage Current -- V. RELIABILITY ESTIMATION -- 1. Relation between Degradation Law and Lifetime Estimation -- 2. Reliability Investigations Using Technological Dispersion -- CONCLUSION -- REFERENCES. |
THE NEXT-GENERATION INTELLIGENT AND GREEN ENERGY LED BACKLIGHTING 3D DISPLAY TECHNOLOGY FOR THE NAKED EYE -- ABSTRACT -- 1. INTRODUCTION -- Intelligent and Green Energy LED Backlighting Techniques -- 2. 3D DISPLAY BACKLIGHT AND APPLICATION -- 2.1. Localized 2D/3D Switchable Maked-eye 3D Display -- 2.2. Mult-view Time Multiplexed Autostereoscopic Displays -- 2.3. Multi-Viewer Tracking Stereoscopic Display -- 3. EXPERIMENTAL AND RESULTS -- 3.1. Localized 2D/3D Switchable Maked-eye 3D Display -- 3.1.1. Three Dimensional Data Registration LED Backlight -- 3.1.2. Localized 2D/3D Switchable Naked-eye 3D Display -- 3.3. Mult-View Time Multiplexed Autostereoscopic Displays -- 3.3.1. Experimental Results -- 3.4. Multi-viewer Tracking Stereoscopic Display -- (B) LED Backlight Architecture -- 3.4.1. Crosstalk Analysis -- 3.4.2. Measured Results -- (A) The Optical Properties Measurement -- (B) Motion Parallax Function Result -- CONCLUSION -- REFERENCES -- INTERSUBBAND TRANSITION IN CDS/ZNSE QUANTUM WELLS FOR EMISSION AND INFRARED PHOTO DETECTION -- ABSTRACT -- INTRODUCTION -- THEORY -- MODELLING AND SIMULATION OF DEVICES -- 1. Electronic Properties of ISBT for Fiber Optic Emissions (1.33→1.55 μm) -- 2. ABSORPTION COEFFICIENT OF ISBT AT 1.55µM IN (CDS/ZNSE)/BETE QUANTUM WELLS -- 3. ELECTRO-OPTIC PERFORMANCE OF (CDS/ZNSE)/BETE BASED QUANTUM WELL INFRARED PHOTODETECTOR -- CONCLUSION -- REFERENCES -- INORGANIC-ORGANIC HYBRID EMITTING MATERIAL FABRICATED BY SOLVOTHERMAL SYNTHESIS -- ABSTRACT -- 1. INTRODUCTION -- 2. PRINCIPLE AND PROBLEM OF EUROPIUM-COMPLEX -- 3. SOL-GEL PROCESS TO ENCAPSULATE EUROPIUM-COMPLEX -- 4. SILICA GLASS COATED EUROPIUM-COMPLEX BY SOLVOTHERMAL PROCESS -- 4.1. Principle of Solvothemal Process -- 4.2. Fabrication Process and Measurement -- 4.3. Dependence of Silane Alxoxide -- 4.4. Dependence of Organic Solvent -- CONCLUSION. | |
ACKNOWLEDGMENTS -- REFERENCES -- ENHANCED EFFICIENCY OF ZNTE-BASED GREEN LIGHT-EMITTING DIODES -- ABSTRACT -- INTRODUCTION -- PROPERTIES OF ZNTE LED FABRICATED BY THERMAL DIFFUSION OF AL THROUGH A SURFACE OXIDATION LAYER -- IMPROVED LED PERFORMANCE BY USING AL OXIDE LAYER AS A DIFFUSION LIMITING LAYER -- ENHANCED OUTPUT POWER OF ZNTE LED BY ADAPTING THIN FILM STRUCTURE -- CONCLUSION -- REFERENCES -- SELF-INTRODUCED LATTICE DISTORTION, INVISIBLE CAVITY AND HIDDEN COLLECTIVE BEHAVIOR OF A POLYMERIC NANOFIBER LASER -- ABSTRACT -- I. INTRODUCTION -- II. MODEL -- III. RESULTS AND DISCUSSION -- REFERENCES -- PHOTONIC BANDGAP DEFECT STRUCTURE ON IV-VI SEMICONDUCTOR: RESONATING CAVITY WITHOUT CLEAVING -- 1.1. BACKGROUND -- 1.2. INTRODUCTION -- 1.3. FINITE DIFFERENCE TIME DOMAIN (FDTD) METHOD -- 1.4. TWO DIMENSIONAL FDTD EQUATIONS -- 1.4.1. TE Waves -- 1.4.2. TM Waves -- 1.5. PLANE WAVE EXPANSION (PWE) METHOD -- 1.6. FINITE DIFFERENCE METHOD (FDM) -- 1.7. LEAD CHALCOGENIDE DEFECT CAVITY PBG STRUCTURE -- 1.7.1. Mid Infrared Photonic Bandgap Formation -- 1.7.2. Modal Analysis by FDM Scheme -- 1.7.3. Modal Analysis by FDTD Scheme -- 1.8. EXPERIMENTAL STEPS FOR AIR HOLE FORMATION -- CONCLUSION -- REFERENCES -- MODELLING OF WIDEBANDGAP LIGHT EMITTING DIODES: FROM HETEROSTRUCTURE TO LED LAMP -- Abstract -- 1.Introduction -- 2.CarrierInjectionandLightEmissioninLEDHeterostruc-tures -- 2.1.LEDdiestructure -- 2.1.1.Strainandpiezoeffect -- 2.1.2.Electron,holeandimpuritystatistics -- 2.2.Carrierstransport -- 2.2.1.Recombinationofnon-equilibriumchargecarriers -- 2.3.Lightemissionspectra -- 2.4.Examples -- 3.CurrentSpreadinginLEDDieandLightExtraction -- 3.1.HybridapproachtoLEDdiemodeling -- 3.2.CurrentcrowdinginLEDdie -- 3.3.HeattransferinLEDdie -- 3.4.LightextractionfromLEDdie -- 3.4.1."Lightescape"problem -- 3.4.2.ApproachestoLEEenhancement. | |
3.5.Currentcrowdingeffectonlightextractionefficiency -- 4.ModelingofLEDLamps -- 5.Conclusion -- Acknowledgments -- References -- INDEX. | |
Titolo autorizzato: | Light-emitting diodes and optoelectronics |
ISBN: | 1-62100-541-0 |
Formato: | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione: | Inglese |
Record Nr.: | 9910825973303321 |
Lo trovi qui: | Univ. Federico II |
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