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Article Abstract
Periodic arrays of microcavities based on distributed Bragg reflectors (DBRs) are introduced into organic light-emitting diodes (OLEDs). The electroluminescence (EL) confined both within the DBR microcavity and inside the indium tin oxide layer is coupled out through interaction with the grating structures, so that a narrow-band portion of the EL is picked up by multiple grating-diffraction processes with the aid of the waveguide effect in the substrate. This selected EL spectrum is coupled out of the device at a separate location with a distance greater than 4 mm from the direct output for a substrate with a thickness of 1.1 mm. Meanwhile, optical gain inside the microcavity and through inter-microcavity coupling leads to the amplification of the EL, so that the band-narrowing effect is observed with increasing applied voltage for the dislocated output. A minimum bandwidth of 26 nm was measured for the dislocated output coupling, which is a significant narrowing with respect to the direct output with a bandwidth >100 nm.
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