鎶ュ憡棰樼洰錛歍echnologies for highly reproducible OLED and QLED characteristics
銆€銆€鎶ュ憡浜猴細Kentaro Harada錛堝師鐢板仴澶儙錛夋暀鎺堬紝錛圞yushu University,鏃ユ湰涔濆窞澶у錛?br>銆€銆€鎶ュ憡鏃墮棿錛?019騫?2鏈?2鏃ヤ笂鍗?0:00-11:00
銆€銆€鎶ュ憡鍦扮偣錛氱幆瀹嘥302
銆€銆€鎶ュ憡鎽樿錛?br>銆€銆€Recent advances in organic and organic/inorganic hybrid electronics are greatly owing to collaborative works on materials design, process development and device characterization, for which strong connections between the interdisciplinary fields are indispensable. At i3-opera, we strive to develop novel methodologies for OLED fabrication and evaluation in collaboration with university and industry. We have been intensely investigating the influence of impurities on OLED lifetime by combining our unique technique with various physical/chemical analyses. We have also invented an induction heating evaporator system, which enables an ultrafast response to the input power and is a promising candidate for future OLED fabrication tool. Besides, we have recently established a platform for reliable QLED evaluation by utilizing an inverted device architecture and by controlling the quality of the underlying ZnO layer. I show in this talk that all the achievements at i3-opera are based on the efforts to ensure the reproducibility of the device performances, which are of crucial importance for practical realization of the organic and organic/inorganic applications.
銆€銆€鎶ュ憡浜虹畝浠嬶細
銆€銆€Professor Kentaro Harada, program director of Fukuoka i3-Center for Organic Photonics and Electronics Research (OPERA), Kyushu University, received his PhD from Technische Universit盲t Dresden, Germany. After post doc position in Institut f眉r Angewandte Photophysik,TU-Dresden, Germanyand Kyushu University, Prof. Haradabecame akey technical account manager: Universal Display Corporation Japan G.K, and Department Manager, Technical Marketing: AIXTRON K.K. before joining Fukuoka i3-Center. Prof. Harada is managing the Fukuoka i3 working on commercialization on organic photonics and electronics, collaborated with local companies and international corporations.
銆€銆€嬈㈣繋騫垮ぇ甯堢敓鍙傚姞錛?/p>
鍏夌數瀛﹂櫌
2019騫?2鏈?鏃?/p>
