High efficiency OLEDs based on anthracene derivatives: The impact of electron donating and withdrawing group on the performance of OLED

Abstract

New well-defined bulky anthracene derivatives with side groups having electron donating or withdrawing properties 8a-d were synthesized. The compounds contain substituted anthracene as the central core attaching 2-(4-(2-pyridinyl)-phenyl)vinyl and 4-R-phenyl [R:H (a), OMe (b) and CF3 (c), N(Ph)(2) (d)] groups at 9- and 10-positions. The impact of electron donating, withdrawing and neutral groups and their influence on the molecules photophysical, charge transfer (CT), triplet transfer (TT) and triplet-triplet annihilation (TTA) properties has been investigated. Based on the photophysical studies the most promising molecule (8d) has been selected and high efficiency fluorescent OLEDs with EQE at very low current efficiency reaching 7% were obtained. The value at low current density implies a Triplet Fusion (TF) contribution of 45%, very close to the maximum theoretical value of 50% when only the singlet decay channel is open to TTA, however we believe that in this case both TTA and TADF contribute to the triplet harvesting to yield high EQE values, and this mixed triplet harvesting arises through the heterogeneity of the films. At high current density a brightness of 20000 cd/m(2) was achieved and it is assigned partially to the material crystallisation.

Description

Keywords

Materials science, Physics, Anthracene derivatives, TTA, TADF, Material crystalization, Light-emitting-diodes, Delayed fluorescence, P-type, Emission, Devices, States, Ir(ppy)(3), Exciplex, Singlet, Ptoep, Anthracene, Charge transfer, Efficiency, Molecules, Anthracene derivatives, Crystalization, High current densities, Low current density, Photophysical studies, TADF, Theoretical values, Triplet-triplet annihilation, Organic light emitting diodes (OLED)

Citation

Aydemir, M. vd. (2016). "High efficiency OLEDs based on anthracene derivatives: The impact of electron donating and withdrawing group on the performance of OLED". Organic Electronics, 30, 149-157.