Introduction to Organic Light Emitting Diode Physics explains the underlying material and device physics that impact the performance of organic materials for OLED applications. The author details the mechanisms involved in OLED operation and the importance of OLED physics. The author provides the logic of key formulas and concepts necessary to interpret and analyze experimental results in OLED research. There is also discussion of emerging opportunities and remaining challenges to the advancement of OLED research. Introduction to Organic Light Emitting Diode Physics provides the fundamental concepts of OLED physics and light emitting materials including carrier mobility (which is vital for enhancing the efficiency of OLED technologies). Remaining challenges to improving the performance of OLEDs, including attention to device fabrication, are investigated. The author systematically compares the most relevant materials utilized for OLED applications and provides details on their differences. The book is suitable for new entrants and experienced researchers in the disciplines of materials science and engineering and physics working in academia and industry. Explains underlying material and device physics that impact the performance of organic materials for OLED applicationsReviews and compares Organic LEDs to inorganic LEDs, polymer LEDs, and metallic OLED and non-metallic LEDsDiscusses emerging topics and remaining challenges for OLED research, particularly ones that impact OLED efficiency and performance INDICE: 1. Introduction2. Fundamentals of Light Emission3. Electro- and Photo-luminescence from Organic Molecules4. Light Emitting Organic Semiconductors5. Charged Carrier Injection and Transport6. Carriers in Emitting Layer7. Paths toward High Quantum Efficiency from Emitting Molecule8. Device Optics9. Comparison and Differences between Organic LEDs and Inorganic LEDs10. Challenges for OLED Science11. Challenges for OLED Device Fabrication12. Blue, Green, Red, and White Light Emissions from Organic Molecules13. Comparison and Differences between Polymer OLEDs and Non-Polymer OLEDs14. Differences between Metallic OLEDs and Non-metallic OLEDs15. Thermally Activated Delayed Fluorescence in OLED16. OLED Operational Lifetimes and Degradation Mechanisms17. Impact of OLEDs on Science, Social and the World
- ISBN: 978-0-12-821387-2
- Editorial: Woodhead Publishing
- Encuadernacion: Rústica
- Páginas: 360
- Fecha Publicación: 01/08/2021
- Nº Volúmenes: 1
- Idioma: Inglés