[Press Release] AMOLED components and materials market grew to $ 24.15 billion in 2023

Although Samsung Electronics and Apple’s OLED smartphone market are stalled, Chinese smartphone makers are gradually increasing their use of OLEDs based on the huge smartphone market in China. As a result, BOE and Chinese panel makers have aggressively established a Gen6n flexible OLED plant, which is driving the OLED industry.

As a result of UBI Research’s panel makers’ operation rate analysis due to OLED plant expansion and supply and demand, the market for various component materials (excluding light emitting materials) that make up OLEDs is expected to reach $13.9 billion in 2019 and expand to $ 24.15 billion in 2023.

Recently, as the production of foldable OLED has started, various kinds of films that are not applied to LCD are emerging as core materials.

In the [2019 OLED Components and Materials Report] published by UBI Research, we examined the foldable OLED structure of Samsung Display, LG Display, and BOE, and analyzed the thickness and characteristics of the films that make up the module.

In the OLED components and materials market, components for TV OLEDs will grow rapidly to reach $ 19.1 billion in 2023 and lead the OLED industry.

OLED emitting materials market to grow to $ 1.71 billion in 2019

OLED light emitting materials market is gradually increasing as Chinese companies enter OLED panel market led by Samsung Display and LG Display.

The 2019 OLED emitting material report, published by UBI Research, predicts that the emitting material market in 2019 will reach $ 1.17 billion. 2021 and 2023 are expected to grow to $ 1.87 billion and $ 2.0 billion, respectively.

The size of light emitting materials consumed by Korean companies will account for 70.2% in 2019 ($ 0.82 billion), and its share will increase to 75.6% in 2023.

Korea’s emitting material market is growing because the consumption of OLED materials for TVs is soaring. In 2019, 21.1% of light emitting materials for TVs are expected to increase to 49.7% in 2023.

[IMID 2018] Can Blue TADF and Hyperfluorescence meet both efficiency and lifetime?

At IMID 2018 in Busan, BEXCO on August 31, Junji Adachi, CEO of Kyulux disclosed the performance of hyperfluorescence, which adds TADF dopant to the existing fluorescent host and dopant.

The color coordinates of the yellow hyperfluorescence revealed by Junji Adachi are (0.49, 0.50), the FWHM (Full Width at Half Maximum) is 76 nm, the EQE is 15.7% on 1000 nit basis, and the LT50 is 62,000 hours by 1000 nit. And the color coordinates of the green hyperfluorescence are (0.28, 0.65), the FWHM (Full Width at Half Maximum) is 31 nm, the EQE is 20.6% on 1000 nit basis, and the LT50 of 1,000 nit is 48,000 hours.

Junji Adachi also revealed the performance of Blue hyperfluorescence, which is currently under development. The maximum emission wavelength of the blue hyperfluorescence is 470 nm, the EQE at 1000 nit is 22%, and the LT50 at 750 nit is 100 hours. In particular, he predicted that the performance of Blue hyperfluorescence would be further improved in the future, saying that it began to improve rapidly in the first half of 2018.

In the following announcement, Dr. Georgios Liaptsis of CYNORA explained about the deep Blue under development, emphasizing that the wavelength should be 460 nm and the CIEy should be within 0.15. He revealed its performance, adding that CYNORA has been carrying out the necessary research to make the lifetime of deep Blue as long as that of sky Blue even with phenomenon that the life span is getting longer as the Blue goes closer to the sky Blue

Fluorescent blue is currently used for the Blue of all OLED applications. Attention is growing whether Blue TADF or Blue Fluorescence can be commercialized to realize better efficiency and lifetime than existing fluorescent blue.