BRUCHSAL, Germany--(BUSINESS WIRE)--CYNORA, a leader in TADF (thermally activated delayed fluorescence) materials for Next-generation OLEDs, extends its Joint Development Agreement with LG Display. After two years of joint development since 2016, CYNORA and LG Display have decided to continue their cooperation towards the commercialization of TADF emitters in OLED displays.
OLED panels are currently the dominating technology for TV and mobile applications. To enable even more applications, OLED panel makers are urgently looking for a high-efficiency deep-blue emitter material. CYNORA´s innovative TADF technology presents a new solution to this issue after the current state-of-the-art technology, phosphorescence, has not succeeded in several years.
CYNORA is the first company to demonstrate high-efficiency deep-blue emitter materials for OLED displays, while others have only reported on sky-blue materials that cannot be used in displays. The company has recently shown that it is leading in deep-blue emitter materials for different approaches of the TADF technology, self-emitting or co-emitting approaches, which includes hyper-fluorescence.
“CYNORA´s focus in our cooperation remains on deep-blue emitter materials for OLED TVs,” says Gildas Sorin, CYNORA’s CEO, “Then, we will use our knowhow on deep-blue emitters to speed up the development of sky-blue emitters for lighting applications and green emitters for displays.”
CYNORA had already reported first sky-blue results in the spring of 2017, which are still the best sky-blue results with TADF materials reported to date. First green materials have been sampled to OLED panel makers.
About CYNORA
CYNORA is a leader in TADF technology. The company's focus is on high-efficiency OLED emitter systems. With a multidisciplinary team of more than 110 TADF experts, CYNORA has developed a robust IP portfolio with more than 150 granted patents and expects to reach 1000 patents and patent applications within the next 2-3 years. CYNORA is working closely with its customers on material and device development.