Highly efficient OLEDs: materials based on thermally activated delayed fluorescence
Contributor(s): Yersin, Hartmut [ed.].
Publisher: Weinheim Wiley-VCH 2019Description: xvi, 588p.ISBN: 9783527339006.Subject(s): Light emitting diodes | Organic electronicsDDC classification: 621.381522 | H537 Summary: The essential resource that offers a comprehensive understanding of OLED optimizations Highly Efficient OLEDs. Materials Based on Thermally Activated Delayed Fluorescence (TADF) offers substantial information on the working principle of OLEDs and on new types of emitting materials (organic and inorganic). As the authors explain, OLEDs that use the Singlet-Harvesting mechanism based on the molecular property of TADF work according to a new exciton harvesting principle. Thus, low-cost emitter materials, such as Cu(I) or Ag(I) complexes as well as metal-free organic molecules, have the potential to replace high-cost rare metal complexes being currently applied in OLED technology. With contributions from an international panel of experts on the topic, the text shows how the application of new TADF materials allow for the development of efficient OLED displays and lighting systems. This new mechanism is the gateway to the third-generation of luminescent materials. This important resource: Offers a state-of-the-art compilation of the latest results in the dynamically developing field of OLED materials Is edited by a pioneer in the field of OLED material technology Contains a detailed application-oriented guide to new low-cost materials for displays and lighting Puts the focus on the emerging fields of OLED technology Written for materials scientists, solid state chemists, solid state physicists, and electronics engineers, Highly Efficient OLEDs. Materials Based on Thermally Activated Delayed Fluorescence offers a comprehensive resource to the latest advances of OLEDs based on new TADF materials.| Item type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
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Books
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PK Kelkar Library, IIT Kanpur | General Stacks | 621.381522 H537 (Browse shelf) | Available | A185309 |
Browsing PK Kelkar Library, IIT Kanpur Shelves , Collection code: General Stacks Close shelf browser
| 621.38152028 W468 ION BEAMS | 621.381520287 R876S SEMICONDUCTOR MEASUREMENTS AND INSTRUMENTATION | 621.381522 H537 Highly efficient OLEDs with phosphorescent materials | 621.381522 H537 Highly efficient OLEDs: materials based on thermally activated delayed fluorescence | 621.381522 K119O ORGANIC ELECTROLUMINESCENCE | 621.381522 K124o Organic light-emitting diodes | 621.381522 L626 LED lighting |
The essential resource that offers a comprehensive understanding of OLED optimizations
Highly Efficient OLEDs. Materials Based on Thermally Activated Delayed Fluorescence (TADF) offers substantial information on the working principle of OLEDs and on new types of emitting materials (organic and inorganic). As the authors explain, OLEDs that use the Singlet-Harvesting mechanism based on the molecular property of TADF work according to a new exciton harvesting principle. Thus, low-cost emitter materials, such as Cu(I) or Ag(I) complexes as well as metal-free organic molecules, have the potential to replace high-cost rare metal complexes being currently applied in OLED technology.
With contributions from an international panel of experts on the topic, the text shows how the application of new TADF materials allow for the development of efficient OLED displays and lighting systems. This new mechanism is the gateway to the third-generation of luminescent materials. This important resource:
Offers a state-of-the-art compilation of the latest results in the dynamically developing field of OLED materials
Is edited by a pioneer in the field of OLED material technology
Contains a detailed application-oriented guide to new low-cost materials for displays and lighting
Puts the focus on the emerging fields of OLED technology
Written for materials scientists, solid state chemists, solid state physicists, and electronics engineers, Highly Efficient OLEDs. Materials Based on Thermally Activated Delayed Fluorescence offers a comprehensive resource to the latest advances of OLEDs based on new TADF materials.
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