Title Electrophosphorescent Materials and Devices / edited by Mark E. Thompson

Published Singapore : Jenny Stanford Publishing, [2024]

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Description 1 online resource Contents Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Chapter 1: Highly Efficient Phosphorescent Emission from Organic Electroluminescent Devices -- Chapter 2: Improved Energy Transfer in Electrophosphorescent Devices -- Chapter 3: Efficient, Saturated Red Organic Light Emitting Devices Based on Phosphorescent Platinum(II) Porphyrins -- 3.1: Introduction -- 3.2: Experimental Section -- 3.2.1: Materials -- 3.2.1.1: PtDPP -- 3.2.1.2: PtOX -- 3.2.2: Photolummescence -- 3.2.3: Device Fabrication and Testing -- 3.3: Result and Discussion -- 3.3.1: Photoluminescence 3.3.2: Electroluminescence -- Chapter 4: Excitonic Singlet-Triplet Ratio in a Semiconducting Organic Thin Film -- 4.1: Introduction -- 4.2: Theory -- 4.3: Experiment -- 4.4: Significance of the Recombination Zone -- 4.5: Discussion -- 4.6: Conclusion -- Chapter 5: Very High-Efficiency Green Organic Light-Emitting Devices Based on Electrophosphorescence -- Chapter 6: Organic Light-Emitting Devices Based on Phosphorescent Hosts and Dyes -- Chapter 7: High-Efficiency Organic Electrophosphorescent Devices with tris(2-Phenylpyridine)Iridium Doped into Electron-Transporting Materials Chapter 8: High-Efficiency Fluorescent Organic Light-Emitting Devices Using a Phosphorescent Sensitizer -- Chapter 9: Nearly 100% Internal Phosphorescence Efficiency in an Organic Light Emitting Device -- 9.1: Introduction -- 9.2: Experimental Method -- 9.3: Results -- 9.4: Discussion -- 9.4.1: Internal Electrophosphorescent Quantum Efficiency -- 9.4.2: Exciton Formation process -- 9.5: Summary -- Chapter 10: Endothermic Energy Transfer: A Mechanism for Generating Very Efficient High-Energy Phosphorescent Emission in Organic Materials Chapter 11: High-Efficiency Yellow Double-Doped Organic Light-Emitting Devices Based on Phosphor-Sensitized Fluorescence -- Chapter 12: High-Efficiency Red Electrophosphorescence Devices -- Chapter 13: Highly Phosphorescent Bis-Cyclometalated Iridium Complexes: Synthesis, Photophysical Characterization, and Use in Organic Light Emitting Diodes -- 13.1: Introduction -- 13.2: Experimental Section -- 13.2.1: Synthesis -- 13.2.2: Synthesis of (ĈN)2: Ir(acac) Complexes -- 13.2.2.1: General Procedure -- 13.2.3: Optical Measurements -- 13.2.4: OLED Fabrication and Testing 13.3: Results and Discussion -- 13.3.1: Synthesis and Characterization of ĈN2: Ir(LX) Complexes -- 13.3.2: Photophysical Properties of ĈN2Ir(LX) Complexes -- 13.3.2.1: Correlation of absorption and emission bands -- 13.3.2.2: ĈN ligand tuning of phosphorescence -- 13.3.2.3: ĈN vs LX centered emission -- 13.3.2.4: OLEDs prepared with ĈN2Ir(LX) complexes -- 13.4: Summary -- Chapter 14: Synthesis and Characterization of Phosphorescent Cyclometalated Iridium Complexes -- 14.1: Introduction -- 14.2: Experimental Section -- 14.2.1: Synthesis of (ĈN2Ir (acac) Complexes: General Procedure Summary Organic LEDs (OLEDs) in mobile displays have been in large-scale production for over a decade, and OLED-based televisions are rapidly gaining traction in the marketplace. OLEDs are on the verge of entering the solid-state lighting market in a big way Bibliography Includes bibliographical references and index Notes 14.2.2: Method A Mark E. Thompson received his BS in chemistry in 1980 from the University of California, Berkeley, and his PhD in chemistry in 1985 from the California Institute of Technology. He was a postdoctoral fellow at Oxford University and is currently the Ray R. Irani Chair of Chemistry at the University of Southern California. His research involves the study of materials and devices for electroluminescence, photovoltaics and solar cells, chemical/biological sensing, and catalysis. Prof. Thompson is the author of approximately 400 papers in refereed professional journals and holds more than 250 patents primarily in the areas of optoelectronic applications, such as light-emitting devices and solar cells Description based on online resource; title from digital title page (viewed on December 21, 2023) Subject Light emitting diodes -- Materials Organic compounds -- Industrial applications SCIENCE / Chemistry / Inorganic SCIENCE / Chemistry / Organic SCIENCE / Life Sciences / General Light emitting diodes -- Materials. Organic compounds -- Industrial applications. Form Electronic book Author Thompson, Mark E., editor ISBN 1000172996 9781003088721 1003088724 9781000190830 1000190838 9781000172980 1000172988 9781000172997

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