Flüssigprozessierung von Multischicht-OLEDs aus kleinen Molekülen
Peters, Katharina
Flüssigprozessierung von Multischicht-OLEDs aus kleinen Molekülen - KIT Scientific Publishing 2016 - 1 electronic resource (XV, 237 p. p.)
Open Access
Organic light-emitting diodes consist of several layers of organic molecules just a few nanometers thick. In future, it may become possible to change the manufacturing process from vacuum deposition to a cost-effective liquid processing. This theoretical and practical investigation focuses on the underlying processes, in particular coating and drying, as well as the factors influencing the separation of individual layers in multilayer systems consisting of small molecules.
Creative Commons
German
KSP/1000051513 9783731504696
10.5445/KSP/1000051513 doi
Schlitzgießen diffusion knife coating DiffusionOLED Mehrschichtsysteme Trocknung slot die coating SMOLED multilayer solution process drying Flüssigprozessierung Rakelbeschichtung Kleine Moleküle OLED Multischichten small molecules
Flüssigprozessierung von Multischicht-OLEDs aus kleinen Molekülen - KIT Scientific Publishing 2016 - 1 electronic resource (XV, 237 p. p.)
Open Access
Organic light-emitting diodes consist of several layers of organic molecules just a few nanometers thick. In future, it may become possible to change the manufacturing process from vacuum deposition to a cost-effective liquid processing. This theoretical and practical investigation focuses on the underlying processes, in particular coating and drying, as well as the factors influencing the separation of individual layers in multilayer systems consisting of small molecules.
Creative Commons
German
KSP/1000051513 9783731504696
10.5445/KSP/1000051513 doi
Schlitzgießen diffusion knife coating DiffusionOLED Mehrschichtsysteme Trocknung slot die coating SMOLED multilayer solution process drying Flüssigprozessierung Rakelbeschichtung Kleine Moleküle OLED Multischichten small molecules