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    • 41. 发明授权
    • 이리듐 착체인 인광 도펀트와 이의 제조 방법 및 이를이용한 유기전계발광소자
    • 이리듐듐체인체광도펀트와이의제조방법및이를이용한유기전계발광소자
    • KR100645329B1
    • 2006-11-14
    • KR1020050075156
    • 2005-08-17
    • 경북대학교 산학협력단
    • 백정주박이순김현석김정무허영준아이만타우픽
    • C09K11/06H05B33/18
    • Provided are an iridium complex phosphorescent dopant which is improved in the energy transfer with a blue light emitting conjugated polymer compound, its preparation method, and an organic electroluminescent device using the phosphorescent dopant. The iridium complex phosphorescent dopant is represented by the formula I. The method comprises the steps of reacting 1-naphthoic acid and 2-aminothiophenol in the presence of an acid to prepare 2-naphthalene-1-yl-benzothiozole; reacting the 2-naphthalene-1-yl-benzothiozole with sodium hexachloroiridate(III) in an organic solvent to prepare a precursor compound represented by the formula V; and reacting the compound of the formula V with 2,4-pentanedione in the presence of an alkali catalyst to prepare the iridium complex phosphorescent dopant of the formula I. Preferably the acid is phosphorus acid.
    • 本发明提供一种蓝色发光共轭高分子化合物的能量转移提高的铱配合磷光掺杂剂及其制备方法以及使用该磷光掺杂剂的有机电致发光器件。 铱配合物磷光掺杂剂由式I表示。该方法包括以下步骤:使1-萘甲酸和2-氨基苯硫酚在酸存在下反应以制备2-萘-1-基 - 苯并噻唑; 使2-萘-1-基 - 苯并噻唑与六氯铱酸钠(III)在有机溶剂中反应以制备由式V表示的前体化合物; 和使式V化合物与2,4-戊二酮在碱催化剂存在下反应以制备式I的铱配合物磷光掺杂剂。优选该酸为亚磷酸。
    • 42. 发明公开
    • 외부장 구동 마이크로캡슐형 디스플레이 패널 제조 방법
    • 用于制作外场驱动的微胶囊型电动显示面板的方法
    • KR1020040083923A
    • 2004-10-06
    • KR1020030018628
    • 2003-03-25
    • 경북대학교 산학협력단
    • 박이순백신혜최형석김봉철권영환황성호
    • G02F1/167
    • PURPOSE: A method for fabricating a micro capsule type electrophoretic display panel to be driven by external fields is provided to uniformly fill micro capsules serving as micro pixels in barrier grooves of a structure in the barrier rib pattern, thereby realizing the high resolution. CONSTITUTION: A method for fabricating a micro capsule type electrophoretic display panel to be driven by external fields includes the steps of forming electrodes by etching ITO electrodes formed on a lower substrate(200). A photoresist layer is formed with a dry thickness of 100-150§­ on the electrodes. After positioning a patterned mask on the photoresist layer, micro capsule filling barrier rib pattern is formed of the photoresist material by UV exposure and development. Around the lower substrate formed with the barrier rib pattern, a seal layer(220) having an inlet(215) and an outlet(216) is formed for injecting a mixture solution of micro capsules and UV curing solution. In the seal layer, barriers(231) are formed to be disposed by pixel interval. As ultrasonic vibration is applied to a panel the micro capsules(313) are smoothly inserted into spaces(250) between the barriers to be accurately arranged in lines and rows. After inspecting whether the micro capsules are uniformly filled in the spaces in one stage, an upper substrate formed with transparent electrodes for covering the micro capsules is attached to the lower substrate. UV light is radiated for fixing.
    • 目的:提供一种用于制造由外部场驱动的微胶囊型电泳显示面板的方法,以均匀地填充作为障壁图案中的结构的阻挡槽中的微观像素的微胶囊,从而实现高分辨率。 构成:用于制造由外部场驱动的微胶囊型电泳显示面板的方法包括通过蚀刻形成在下基板(200)上的ITO电极来形成电极的步骤。 在电极上形成干燥厚度为100-150μ的光致抗蚀剂层。 在光致抗蚀剂层上定位图案化掩模之后,通过UV曝光和显影由光致抗蚀剂材料形成微胶囊填充阻挡肋图案。 在形成有隔壁图案的下基板周围,形成具有入口(215)和出口(216)的密封层(220),用于注入微胶囊和UV固化溶液的混合溶液。 在密封层中,屏障(231)形成为以像素间隔布置。 当超声波振动被施加到面板上时,微胶囊(313)被平滑地插入在屏障之间的空间(250)中,以准确排列成行和列。 在检查微胶囊是否均匀地填充在一个阶段的空间中之后,形成有用于覆盖微胶囊的透明电极的上基板被附接到下基板。 紫外线照射用于固定。