2013
DOI: 10.1002/adom.201300241
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Highly Efficient Color Stable Inverted White Top‐Emitting OLEDs with Ultra‐Thin Wetting Layer Top Electrodes

Abstract: An ultra‐thin MoO3–Au–Ag wetting layer metal electrode is investigated to eliminate present optical and electrical limitations of inverted top‐emitting OLEDs. Its high transmittance suppresses microcavity effects and the MoO3 hole injection layer compensates limited charge injection from the top contact. Overall, an extensive approach is presented to solve the key problems of top‐emitting OLEDs in general.

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Cited by 89 publications
(77 citation statements)
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“…Within the experiment, such ultra-thin metal layers are realized by using a recently adapted wetting layer electrode approach 48,49 , where a seed metal is used to form a closed conductive and highly transparent metal electrode. With this approach, the combined thickness of the smooth metal electrode does not exceed 10 nm, enabling very high outcoupling efficiencies.…”
Section: Optimizing Thin Film Spps and Power Dissipation Of Implemmentioning
confidence: 99%
“…Within the experiment, such ultra-thin metal layers are realized by using a recently adapted wetting layer electrode approach 48,49 , where a seed metal is used to form a closed conductive and highly transparent metal electrode. With this approach, the combined thickness of the smooth metal electrode does not exceed 10 nm, enabling very high outcoupling efficiencies.…”
Section: Optimizing Thin Film Spps and Power Dissipation Of Implemmentioning
confidence: 99%
“…In contrast to the majority of publications on this topic, our devices are driven by an alternating current (AC) signal, which allows us to reduce the required number of independently addressable electrodes from three to only two. 8,[16][17][18] By using an ultrathin and highly transparent layer of highly conductive metal as the intermediate electrode, [19][20][21] our devices achieve efficiencies comparable to those of state-of-the-art non-color-tunable white OLEDs with the additional advantage of providing continuous color tuning at constant brightness from deep blue through cold-white and warm-white to saturated yellow. Our device efficiencies of up to 36.8 lm W 21 at warm-white color coordinates are-to the best of our knowledge-the highest values achieved thus far for any freely color-tunable white OLED.…”
Section: Introductionmentioning
confidence: 91%
“…To enhance this effect even more we will use a recently developed wetting layer electrode 22,23 as transparent top contact. These electrodes consist of a very thin layer of metal deposited onto a seed metal thus forming a closed planar film.…”
Section: Theoretical Conceptmentioning
confidence: 99%