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    • 21. 发明授权
    • Image display device, panel and panel manufacturing method
    • 图像显示装置,面板及面板制造方法
    • US09024936B2
    • 2015-05-05
    • US13512861
    • 2010-12-02
    • Hidenori OgataYuhki KobayashiMakoto YamadaKen OkamotoYoshimasa FujitaKatsumi Kondoh
    • Hidenori OgataYuhki KobayashiMakoto YamadaKen OkamotoYoshimasa FujitaKatsumi Kondoh
    • G09G3/20G09G3/30H01L27/32G09G3/32G09F9/302H01L51/00H05B33/08
    • H01L27/3293G09F9/3026G09G3/3225G09G2300/0426G09G2380/02H01L27/3211H01L27/3288H01L51/0096H05B33/0896Y02E10/549Y02P70/521
    • Provided are an image display device in which a desired number of panels are combined so that a large light-emitting surface is realized, a panel provided in the image display device, and a method for manufacturing the panel. For this purpose, a panel (11) of the present invention includes a rectangular light-emitting section (13); a substrate (12) having a flat surface (12a′) on which the rectangular light-emitting section (13) is provided and a curved adjacent surface (12b′) that is adjacent to one of edge portions of the flat surface which extend along long sides of the rectangular light-emitting section (13); and a terminal group that is drawn out from a long side of the rectangular light-emitting section (13) and that is disposed in the adjacent surface. The panels (11) are connected to each other by linking edge portions of the flat surfaces (12a′) of the respective substrates (12) so that longitudinal directions of the respective rectangular display sections (13) are parallel to each other and so that the adjacent surface (12b′) is located on the back side of the substrate (12). In an image display section, pixels (50) are arranged in a matrix, and sub-pixels in each of the pixels (50) are aligned in a column direction of the matrix.
    • 提供了一种图像显示装置,其中组合所需数量的面板以实现大的发光表面,设置在图像显示装置中的面板以及用于制造面板的方法。 为此,本发明的面板(11)包括矩形发光部(13)。 具有设置有矩形发光部(13)的平坦面(12a')的基板(12)和与所述平坦面的边缘部分相邻的弯曲相邻表面(12b'),所述弯曲相邻表面 长方形发光部(13)的长边; 以及从矩形发光部(13)的长边拉出并位于相邻面的端子组。 面板(11)通过连接各个基板(12)的平坦表面(12a')的边缘部分彼此连接,使得各个矩形显示部分(13)的纵向方向彼此平行,因此 相邻的表面(12b')位于基板(12)的背面。 在图像显示部中,像素(50)以矩阵形式排列,并且每个像素(50)中的子像素在矩阵的列方向上排列。
    • 26. 发明申请
    • ORGANIC ELECTROLUMINESCENCE ELEMENT, MANUFACTURING METHOD THEREOF, AND ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE
    • 有机电致发光元件及其制造方法及有机电致发光显示装置
    • US20120305898A1
    • 2012-12-06
    • US13512005
    • 2010-10-12
    • Ken Okamoto
    • Ken Okamoto
    • H01L51/52H01L27/32H01L51/56
    • H01L51/5016H01L51/529H01L2251/5384H01L2251/552H01L2251/558
    • An organic EL element (1) includes a three-layer-structured light-emitting layer (5). A first light-emitting layer (5a) is made of a host material higher in HOMO than an organic light-emitting material (|HOMO (host material for first light-emitting layer)|>|HOMO (phosphorescence-emitting material)|). A second light-emitting layer (5c) is made of a host material lower in LUMO than the organic light-emitting material (|LUMO (host material for second light-emitting layer) | |HOMO (phosphorescence-emitting material)|, |LUMO (host material for third light-emitting layer)|
    • 有机EL元件(1)包括三层结构的发光层(5)。 第一发光层(5a)由HOMO高于有机发光材料(| HOMO(第一发光层的主体材料)| HOMO(磷光发光材料)|)的主体材料制成。 。 第二发光层(5c)由LUMO低于有机发光材料(| LUMO(第二发光层的主体材料)| | | | LUMO(磷光发光材料)|)的主体材料制成。 。 第三发光层(5b)由HOMO中较高的材料制成,在LUMO中低于有机发光材料(| HOMO(第三发光层的主体材料)| | | HOMO(磷光发光材料 )|,| LUMO(第三发光层的主体材料)| | | LUMO(磷光发光材料)|)。 这确保了将空穴和电子传递到第三发光层(5c)。 因此,空穴和电子之间的复合比率增加,用于驱动有机EL元件(1)的电压降低,发光效率提高。
    • 27. 发明申请
    • ORGANIC ELECTROLUMINESCENCE ELEMENT, MANUFACTURING METHOD THEREOF, AND ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE
    • 有机电致发光元件及其制造方法及有机电致发光显示装置
    • US20120261653A1
    • 2012-10-18
    • US13511636
    • 2010-10-12
    • Ken Okamoto
    • Ken Okamoto
    • H01L51/54H01L51/56
    • H01L51/5016H01L51/5004H01L2251/5384H05B33/10
    • An organic EL element (11) includes a light emitting layer (15) which has a two-layer structure, and a first light-emitting layer (15a) is made from a host material which includes LUMO shallower than (i) LUMO (19) of a phosphorescent light emitting material and (ii) LUMO of a host material, from which a second light-emitting layer (15b) is made (|LUMO (host material for first light-emitting layer)| |HOMO (host material for first light-emitting layer)| and |HOMO (host material for second light-emitting layer)|>|HOMO (phosphorescent light emitting material)|). This makes it possible (i) to block holes from moving to the second light-emitting layer (15b) and (ii) to block electrons from moving to the first light-emitting layer (15a). As a result, a probability that the holes and the respective electrons recombine with each other is increased. It is therefore possible to reduce a driving voltage of an organic EL element (11). This improves light emitting efficiency.
    • 有机EL元件(11)包括具有两层结构的发光层(15),并且第一发光层(15a)由包含比(i)LUMO(19)的LUMO的主体材料制成 )和(ii)主体材料的LUMO,由其制成第二发光层(| LUMO(第一发光层的主体材料)| | | | LUMO(主体材料 对于第二发光层)|和| LUMO(第一发光层的主体材料)| <| LUMO(磷光发光材料)|)。此外,第二发光层(15b)由主体 包括比磷光发光材料的(i)HOMO(18)更深的HOMO的材料和(ii)制成第一发光层(15a)的主体材料的HOMO(| HOMO(第二主体材料 发光层)|> | HOMO(第一发光层的主体材料)|和| HOMO(第二发光层的主体材料)|> | HOMO( 磷光发光材料))。 这使得可以(i)阻挡空穴移动到第二发光层(15b),和(ii)阻止电子移动到第一发光层(15a)。 结果,空穴和各电子彼此复合的概率增加。 因此,可以降低有机EL元件(11)的驱动电压。 这提高了发光效率。