Efficient Organic Light Emitting-Diodes (OLEDs)
Following two decades of intense research globally, the organic light-emitting diode (OLED) has steadily emerged as the ultimate display technology of choice for the coming decades. Portable active matrix OLED displays have already become prevalent, and even large-sized ultra-high definition 4K TVs are being mass-produced. More exotic applications such as wearable displays have been commercialized recently. With the burgeoning success in displays, researchers are actively bringing the technology forward into the exciting solid-state lighting market.

This book presents the knowledge needed for students and researchers from diverse disciplines to understand the underlying principles in OLED technology. It begins with a brief history and fundamental working principles of OLEDs. After introducing the fundamentals, it discusses more efficient OLED designs, as well as advanced strategies to enhance the performance. The text covers in detail important areas such as top-emission, p- and n-type doping, device stability, light extraction, and stacked white OLEDs. It also throws light on the current industry practice and major areas of focus in the near future.

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Efficient Organic Light Emitting-Diodes (OLEDs)
Following two decades of intense research globally, the organic light-emitting diode (OLED) has steadily emerged as the ultimate display technology of choice for the coming decades. Portable active matrix OLED displays have already become prevalent, and even large-sized ultra-high definition 4K TVs are being mass-produced. More exotic applications such as wearable displays have been commercialized recently. With the burgeoning success in displays, researchers are actively bringing the technology forward into the exciting solid-state lighting market.

This book presents the knowledge needed for students and researchers from diverse disciplines to understand the underlying principles in OLED technology. It begins with a brief history and fundamental working principles of OLEDs. After introducing the fundamentals, it discusses more efficient OLED designs, as well as advanced strategies to enhance the performance. The text covers in detail important areas such as top-emission, p- and n-type doping, device stability, light extraction, and stacked white OLEDs. It also throws light on the current industry practice and major areas of focus in the near future.

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Efficient Organic Light Emitting-Diodes (OLEDs)

Efficient Organic Light Emitting-Diodes (OLEDs)

Efficient Organic Light Emitting-Diodes (OLEDs)

Efficient Organic Light Emitting-Diodes (OLEDs)

Overview

Following two decades of intense research globally, the organic light-emitting diode (OLED) has steadily emerged as the ultimate display technology of choice for the coming decades. Portable active matrix OLED displays have already become prevalent, and even large-sized ultra-high definition 4K TVs are being mass-produced. More exotic applications such as wearable displays have been commercialized recently. With the burgeoning success in displays, researchers are actively bringing the technology forward into the exciting solid-state lighting market.

This book presents the knowledge needed for students and researchers from diverse disciplines to understand the underlying principles in OLED technology. It begins with a brief history and fundamental working principles of OLEDs. After introducing the fundamentals, it discusses more efficient OLED designs, as well as advanced strategies to enhance the performance. The text covers in detail important areas such as top-emission, p- and n-type doping, device stability, light extraction, and stacked white OLEDs. It also throws light on the current industry practice and major areas of focus in the near future.

Product Details

ISBN-13: 9789814613804
Publisher: Jenny Stanford Publishing
Publication date: 08/03/2015
Pages: 126
Product dimensions: 6.00(w) x 9.00(h) x (d)

About the Author

Yi-Lu Chang received his BASc in engineering physics from the University of British Columbia, Vancouver, Canada, in 2007, and MEng in electrical engineering from McGill University, Montreal, Canada, in 2009, where he specialized in molecular beam epitaxial growth of group III-nitride nanowires and their applications in light-emitting diodes. In 2014, he received his PhD in materials science and engineering from the University of Toronto, Canada, where he focused on the development of efficient organic light-emitting diodes (OLEDs) for displays and solid-state lighting. Currently, Dr. Chang is vice president of research at OTI Lumionics Inc., which specializes in the development of novel OLED products for general lighting and displays.

Table of Contents

Introduction. OLED Working Principles. Charge Carrier Injection and Transport. Efficient Device Architectures. Advanced Device Architectures: Exciton Harvesting. P-type intrinsic n-type (p-i-n) OLEDs. Top-Emission OLEDs. Efficient White OLEDs. Optical Light Out-Coupling. Stability and Degradation. Applications in Displays and Lighting. Conclusions and Outlook.

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