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Effect of thermal annealing Super Yellow emissive layer on efficiency of OLEDs.


ABSTRACT: Thermal annealing of the emissive layer of an organic light emitting diode (OLED) is a common practice for solution processable emissive layers and reported annealing temperatures varies across a wide range of temperatures. We have investigated the influence of thermal annealing of the emissive layer at different temperatures on the performance of OLEDs. Solution processed polymer Super Yellow emissive layers were annealed at different temperatures and their performances were compared against OLEDs with a non-annealed emissive layer. We found a significant difference in the efficiency of OLEDs with different annealing temperatures. The external quantum efficiency (EQE) reached a maximum of 4.09% with the emissive layer annealed at 50?°C. The EQE dropped by ~35% (to 2.72%) for OLEDs with the emissive layers annealed at 200?°C. The observed performances of OLEDs were found to be closely related to thermal properties of polymer Super Yellow. The results reported here provide an important guideline for processing emissive layers and are significant for OLED and other organic electronics research communities.

SUBMITTER: Burns S 

PROVIDER: S-EPMC5247766 | biostudies-literature | 2017 Jan

REPOSITORIES: biostudies-literature

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Effect of thermal annealing Super Yellow emissive layer on efficiency of OLEDs.

Burns Samantha S   MacLeod Jennifer J   Trang Do Thu T   Sonar Prashant P   Yambem Soniya D SD  

Scientific reports 20170120


Thermal annealing of the emissive layer of an organic light emitting diode (OLED) is a common practice for solution processable emissive layers and reported annealing temperatures varies across a wide range of temperatures. We have investigated the influence of thermal annealing of the emissive layer at different temperatures on the performance of OLEDs. Solution processed polymer Super Yellow emissive layers were annealed at different temperatures and their performances were compared against OL  ...[more]

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