60.3: Two‐Stacked White Organic Light‐Emitting Diodes Consisting of Fluorescent and Phosphorescent Hybrid Structure with High Efficiency and Good Color Characteristics

Pieh, Sung-Hoon; Myung-Seop, Kim; Sung, Chang-Je; Seo, Jeongdae; Choi, Hong‐Seok; Han, Chang-Wook; Tak, Yoon‐Heung

doi:10.1889/1.3256943

Cited by 20 publications

(14 citation statements)

References 8 publications

(11 reference statements)

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“…[2][3][4] For the white subpixel, light emission from the white OLED can be used directly without a color filter, leading to high efficiency and low power consumption.…”

Section: Background and Objectmentioning

confidence: 99%

High-resolution OLED display with remarkably low power consumption using blue/yellow tandem structure and RGBY subpixels

Yamaoka

Sasaki

Kataishi

et al. 2015

Jnl Soc Info Display

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“…[2][3][4] For the white subpixel, light emission from the white OLED can be used directly without a color filter, leading to high efficiency and low power consumption.…”

Section: Background and Objectmentioning

confidence: 99%

High-resolution OLED display with remarkably low power consumption using blue/yellow tandem structure and RGBY subpixels

Yamaoka

Sasaki

Kataishi

et al. 2015

Jnl Soc Info Display

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“…Modern mobile devices require power‐saving displays. One proposed technique for reducing power consumption is to add a white (W) sub‐pixel to a pixel that is composed of red (R), green (G), and blue (B) sub‐pixels . However, combining this RGBW structure with the WTC structure has been difficult.…”

Section: Background and Objectivementioning

confidence: 99%

“…One proposed technique for reducing power consumption is to add a white (W) sub-pixel to a pixel that is composed of red (R), green (G), and blue (B) sub-pixels. 10,11 However, combining this RGBW structure with the WTC structure has been difficult. While emission of light in a wide wavelength range is required for white light to be emitted from the W sub-pixel in the RGBW structure, the microcavity effect in the WTC structure increases the intensity of light with a specific wavelength and prevents emission of white light.…”

Section: Background and Objectivementioning

confidence: 99%

Development of a high-resolution RGBW flexible display using a white organic light-emitting diode with microcavity structure and that of a side-roll touch panel

Kataishi

Ishihara

Sasaki

et al. 2014

Jnl Soc Info Display

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In this study, white organic electroluminescent devices with microcavity structures were developed. A flexible high‐resolution active‐matrix organic light‐emitting diode display with low power consumption using red, green, blue, and white sub‐pixels formed by a color‐filter method was fabricated. In addition, a side‐roll touch display was developed in combination with a capacitive flexible touch screen.

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“…We have studied how to maximize efficiency and tune colors of the phosphorescent stack with one host and two doped red-and green-emitting layers, by changing the concentration of the dopants in previous report. 6 We focused on improving the lifetime of the phosphorescent-emitting portion of the OLED stack, which was lower compared to the fluorescent blue-emitting portion. We employed a new greenish-yellow dopant (GYD) instead of a green dopant (GD) in order to enhance the efficiency and the lifetime of the phosphorescent stack.…”

Section: Phosphorescent Red and Green Stackmentioning

confidence: 99%

“…4,5 In this paper, we have employed a bottomemissive and two-stacked WOLED structure. 6 Previously, there have been two unsolved issues: the low efficiency of fluorescent blue and the low lifetime of the phosphorescent red and green stack in the tandem WOLEDs. We report the high-performance of WOLEDs by enhancing the efficiency and the lifetime of the fluorescent blue stack and the lifetime of the phosphorescent red and green stack.…”

Section: Introductionmentioning

confidence: 99%

15‐in. RGBW panel using two‐stacked white OLED and color filters for large‐sized display applications

Han¹,

Tak²,

Ahn³

2011

J Soc Info Display

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Abstract— A 15‐in. HD panel employing two‐stacked WOLEDs and color filters for which the color gamut can be as high as 101.2% (CIE1976) and the power consumption is 5.22 W. The WOLEDs exhibit a current efficiency of 61.3 cd/A and a power efficiency of 30 lm/W at 1000 nits and their CIE coordinate is (0.340, 0.334). A 15‐in. RGBW panel was investigated to verify the electrical and optical performance compared to that of a 15‐in. RGB TV made by using FMM technology. The characteristics of the 15‐in. RGBW panel are comparable to those of the 15‐in. RGB panel. Color filters combined with WOLEDs is a possible patterning technology for large‐sized OLED TV, which surpasses the limits of fine‐metal‐mask technology.

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60.3: Two‐Stacked White Organic Light‐Emitting Diodes Consisting of Fluorescent and Phosphorescent Hybrid Structure with High Efficiency and Good Color Characteristics

Cited by 20 publications

References 8 publications

High-resolution OLED display with remarkably low power consumption using blue/yellow tandem structure and RGBY subpixels

High-resolution OLED display with remarkably low power consumption using blue/yellow tandem structure and RGBY subpixels

Development of a high-resolution RGBW flexible display using a white organic light-emitting diode with microcavity structure and that of a side-roll touch panel

15‐in. RGBW panel using two‐stacked white OLED and color filters for large‐sized display applications

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