Highly efficient tandem organic light-emitting devices utilizing the connecting structure based on n-doped electron-transport layer/HATCN/hole-transport layer

Yi-Lin Wu; Chien-Yu Chen; Yi-Hsiang Huang; Yin-Jui Lu; Cheng-Hsu Chou; Chung-Chih Wu

doi:10.1364/AO.53.0000E1

Applied Optics
Vol. 53,
Issue 22,
pp. E1-E6
(2014)
•https://doi.org/10.1364/AO.53.0000E1

Highly efficient tandem organic light-emitting devices utilizing the connecting structure based on n-doped electron-transport layer/HATCN/hole-transport layer

Yi-Lin Wu, Chien-Yu Chen, Yi-Hsiang Huang, Yin-Jui Lu, Cheng-Hsu Chou, and Chung-Chih Wu

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Yi-Lin Wu, Chien-Yu Chen, Yi-Hsiang Huang, Yin-Jui Lu, Cheng-Hsu Chou, and Chung-Chih Wu, "Highly efficient tandem organic light-emitting devices utilizing the connecting structure based on n-doped electron-transport layer/HATCN/hole-transport layer," Appl. Opt. 53, E1-E6 (2014)

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Abstract

In this work, we conducted studies of tandem organic light-emitting devices (OLEDs) based on the connecting structure consisting of n-doped electron-transport layer (n-ETL)/1,4,5,8,9,11-hexaazatriphenylene hexacarbonitrile (HATCN)/hole-transport layer. We investigated effects of different n-ETL materials and different HATCN thicknesses on characteristics of tandem OLEDs. Results show that the tandem OLEDs with n-BPhen and a 20 nm layer of HATCN in the connecting structure exhibited the best performance. With these, highly efficient and bright green phosphorescent two-emitting-unit tandem OLEDs, with drive voltages significantly lower than twice that of the single-unit benchmark device and current efficiencies higher than twice that of the single-unit benchmark device, were demonstrated.

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			At $1000 cd / m^{2}$
Device	n-ETL	$d_{HATCN}$	Voltage (V)	Current Efficiency (cd/A)	Power Efficiency (lm/W)
A	n/a	n/a	5.1	60.6	37.3
B1	TPBi	10	9.5	96.8	32.0
B2	BPhen	10	8.6	114.9	42.0
B3	3TPYMB	10	10.5	77.1	23.1
C1	BPhen	5	9.4	112.9	37.7
C2	BPhen	10	8.6	114.9	42.0
C3	BPhen	20	8.2	126.1	48.3
C4	BPhen	30	8.5	126.0	46.6
C5	BPhen	40	8.5	125.9	46.5

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Applied Optics