Colloidal Quantum Dot Light Emitting Diodes

Focuses on a review of the latest innovations in materials design and fabrication methods for the colloidal quantum dot light emitting diodes.

Autorentext

Prof. Hong Meng received his Ph.D. from University of California Los Angeles (UCLA) in 2002. He has been working in the field of organic electronics for more than 20 years. His career experiences including working at the Institute of Materials Science and Engineering (IMRE) in Singapore, Lucent Technologies Bell Labs, DuPont Experimental Station. In 2014, he moved to School of Advanced Materials Peking University Shenzhen Graduate School, China. He has contributed over 120 peer-reviewed papers (citation: 6000) in chemistry and materials science fields, filed over 46 US patents, 50 Chinese patents.

Klappentext

Explore all the core components for the commercialization of quantum dot light emitting diodes Quantum dot light emitting diodes (QDLEDs) are a technology with the potential to revolutionize solid-state lighting and displays. Due to the many applications of semiconductor nanocrystals, of which QDLEDs are an example, they also hold the potential to be adapted into other emerging semiconducting technologies. As a result, it is critical that the next generation of engineers and materials scientists understand these diodes and their latest developments. Colloidal Quantum Dot Light Emitting Diodes: Materials and Devices offers a comprehensive introduction to this subject and its most recent research advancements. Beginning with a summary of the theoretical foundations and the basic methods for chemically synthesizing colloidal semiconductor quantum dots, it identifies existing and future applications for these groundbreaking technologies. The result is tailored to produce a thorough understanding of this area of research. Colloidal Quantum Dot Light Emitting Diodes readers will also find:

• An author with decades of experience in the field of organic electronics
• Detailed discussion of topics including advanced display technologies, the patent portfolio and commercial considerations, and more

• Strategies and design techniques for improving device performance Colloidal Quantum Dot Light Emitting Diodes is ideal for material scientists, electronics engineers, inorganic and solid-state chemists, solid-state and semiconductor physicists, photochemists, and surface chemists, as well as the libraries that support these professionals.

  Inhalt
  HISTORY AND INTRODUCTION OF QDS AND QDLEDS
  1.1 Preparation Route of Quantum Dots
  1.2 Light-Emitting Characteristics of Quantum Dots
  1.3 Application of Quantum Dots on Display Devices
  1.4 Conclusion and Remarks
  References
  Chapter 2 COLLOIDAL SEMICONDUCTOR QUANTUM DOT LED STRUCTURE AND PRINCIPLES
  2.1 Basic Concepts
  2.2 Colloidal Quantum Dot Light-Emitting Devices
  References
  SYNTHESIS AND CHARACTERIZATION OF COLLOIDAL SEMICONDUCTOR QUANTUM DOT MATERIALS
  3.1 Background
  3.2 Synthesis and Post-Processing of Colloidal Quantum Dots
  3.3 Material Characterization
  3.4 Conclusion and Outlook
  References
  RED QUANTUM DOT LIGHT EMITTING DIODES
  4.1 Background
  4.2 Red Light Quantum Dot Materials
  4.3 Red QDLED Devices
  4.4 Conclusion and Outlook
  References
  GREEN QUANTUM DOT LED MATERIALS AND DEVICES
  5.1 Background
  5.2 Commonly Used Luminescent Layer Materials in Green QDLEDs
  5.3 Development of Device Structures for Green QDLEDs
  5.4 Factors Affecting the Performance of Green QDLEDs
  5.5 Summary and Outlook
  Reference
  BLUE QUANTUM DOT LIGHT EMITTING DIODES
  6.1 Introduction
  6.2 Blue Quantum Dot Luminescent Materials
  6.3 Optimization of Charge Transport Layer (CTLs)
  6.4 Device Structure
  6.5 Summary
  Reference
  Chapter 7 NEAR-INFRARED QUANTUM DOTS QDLED
  7.1 Introduction of Near Infrared Quantum Dots
  7.2 Near Infrared Quantum Dot Materials
  7.3 Optimization of Near Infrared Quantum Dot Materials
  7.4 Summary and prospect
  References
  WHITE QDLED
  8.1 Generation of White Light
  8.2 Quantum Dots for White LEDs
  8.3 Summary Outlook
  References
  NON-CADMIUM QUANTUM DOT LIGHT-EMITTING MATERIALS AND DEVICES
  9.1 Introduction
  9.2 Quantum Dots and QDLED
  9.3 Methods for Optimizing QDLED Performance
  9.4 Summary and Outlook
  References
  AC-DRIVEN QUANTUM DOT LIGHT-EMITTING DIODES
  10.1 Principle of Luminescence of DC and AC Driven QDLEDs
  10.2 Mechanism of Double-Emission Tandem Structure of AC QDLEDs
  10.3 Optimization Strategies for AC QDLEDs
  10.4 Conclusion and Future Direction of AC-QDLED
  References
  STABILITY STUDY AND DECAY MECHANISM OF QUANTUM DOT LIGHT EMITTING DIODES
  11.1 Quantum Dot Light-Emitting Diode Stability Research Status
  11.2 Factors Affecting the Stability of Quantum Dot Light-Emitting Diodes
  11.3 Quantum Dot Light-Emitting Diode Efficiency Decay Mechanism
  11.4 Ageing Mechanisms of QDLEDs
  11.5 Characterization Technologies for QDLEDs
  11.6 Outlook
  References
  ELECTRON/HOLE INJECTION AND TRANSPORT MATERIALS IN QUANTUM DOT LIGHT EMITTING DIODES
  12.1 Introduction
  12.2 Charge-Transport Mechanisms
  12.3 Electron Transport Materials (ETMs) for QDLED
  12.4 Electron Injection Materials for QDLED
  12.5 Hole Transport Materials for QDLED
  12.6 Hole Injection Materials for QDLED
  12.7 Summary and outlook
  References
  QUANTUM DOT INDUSTRIAL DEVELOPMENT AND PATENT LAYOUT
  13.1 Introduction
  13.2 Patent Layout
  13.3 Summary and outlook
  References
  Patterning Techniques for Quantum Dot Light-Emitting Diodes (QDLED)
  14.1 Introduction
  14.2 Photolithography
  14.3 Micro-Contact Transfer
  14.4 Inkjet Printing
  14.5 Other Patterning Techniques
  14.6 Conclusion
  Reference