Hyperfluorescence™ – the most efficient OLED emission technology
Hyperfluorescence™ is an OLED emitting mechanism that combines two different emitter materials – TADF and first-gen fluorescence. Hyperfluorescence™ is the 4th-generation OLED emitter technology – as it combines several attractive properties: high-efficiency, long lifetime, low material cost and a narrow emission spectrum. HF emitters are also free of any rare metals.
Kyulux develops green Hyperfluorescence™ technology that surpasses phosphorescence performance
Earlier this month, Kyulux participated in the online OLEDs World Summit event, and Kyulux’s CEO, Mr. Nobuyuki Nakano, was one of the key speakers in the conference. During his talk, Mr. Nakano detailed the latest status of Kyulux’s green Hyperfluorescence emitter technology. Following years of intensive R&D, Kyulux’s green material is getting close to commercialization, […]
Kyulux explains the benefits of TADF/Hyperfluorescence™ systems at ICDT 2021
Last week at ICDT 2021, Dr. Shou-Hsien Cheng of Kyulux presented Kyulux’s latest progress in a talk entitled “HyperfluorescenceTM: Excel the Performance, Create the Future.” In this talk, Kyulux demonstrated its coherent Hyperfluorescence™ development approach, consisting of comparative simulation, experimental demos, and a strategy towards high current efficiency alongside its new blue and green TADF […]
Kyulux to speak at ICDT 2021
Kyulux’s Dr. Shuo-Hsien Cheng will give a talk at the International Conference on Display Technology (ICDT) 2021 event, titled: “Hyperfluorescence™: Excel the Performance, Create the Future” (Session 38.1) on June 2nd (10:00-10:20 CST, 11:00-11:20 JST) as an invited speaker. The ICDT 2021 event will be held in Beijing, China from May 30 to June 2, […]
Kyulux raises $34.3 million in Series B-prime funding round
Fukuoka, Japan, February 19, 2021- Kyulux, Inc. (Headquarters: Fukuoka, Japan) is pleased to announce that it has finalized its Series B-prime funding round, in which it raised ¥3.625 billion (around $34.3 million USD) from several venture capitals and companies. Kyulux had previously raised ¥5 billion JPY in series A and B financing rounds and had […]
Acceleration of practical application by transfer of basic patent of the ultimate OLED light emission technology Hyperfluorescence™
Fukuoka, Japan, February 19, 2021- Kyulux, Inc., (Headquarters: Fukuoka, Japan) is pleased to announce that it has agreed to the basic patent assignment of the next-generation OLED technology Hyperfluorescence™ from Kyushu University. Hyperfluorescence™, developed by the research group of Prof. Chihaya Adachi at Kyushu University, co-founder of Kyulux, is the ultimate OLED technology that […]
Kyulux’s paper wins “Distinguished Paper of ICDT 2020” award
Kyulux is proud to announce that its paper was recently selected as Distinguished Paper at SID’s International Conference on Display Technology (ICDT) 2020. The paper, “Towards commercialization of Hyperfluorescence™”, was written by Junji Adachi, Takahito Oyamada, Ayataka Endo and Hayato Kakizoe. The ICDT Organizing Committee has granted Kyulux a one-year complimentary SID individual membership […]
Kyulux concludes a successful SID Displayweek 2020
SID Displayweek 2020, one of the display’s industry premier events, took place a couple of weeks ago, in a virtual format for the first time ever. Kyulux enjoyed taking part in that unique experience. Our virtual booth attracted over 250 visitors, who were interested to learn about our latest TADF HyperfluorescenceTM OLED materials. In addition […]
Kyulux was featured on Japanese news site “INITIAL”
On May 27th, the “INITIAL” on the Japanese online news site featured a spotlight piece on Kyulux. For more details, please refer to the link below (JP only). https://initial.inc/articles/material-finance-2
Kyulux was featured on “The NIKKEI”
On May 18th, the newspaper “The Nikkei” on the famous Japanese newspaper featured a spotlight piece on Kyulux. For more details, please refer to the link below (JP only). https://www.nikkei.com/article/DGXMZO59162280V10C20A5FFT000/
