ELECTRO-LUMINESCENT DISPLAY WITH IMPROVED EFFICIENCY
    1.
    发明申请
    ELECTRO-LUMINESCENT DISPLAY WITH IMPROVED EFFICIENCY 审中-公开
    电子显示屏具有改进的效率

    公开(公告)号:US20080203899A1

    公开(公告)日:2008-08-28

    申请号:US11680244

    申请日:2007-02-28

    CPC classification number: H01J1/74 C09K11/883

    Abstract: A full-color, light-emitting display device has improved efficiency with a large color gamut. The full-color, light-emitting display device has a plurality of pixels, each pixel having four or more colors of light-emitting elements. Three of the colors of light-emitting elements emits red, green, and blue light, and at least one of the colors of light-emitting elements emitting light is perceived to be within the gamut defined by the chromaticity coordinates of the red, green, and blue colored light-emitting elements. The light-emitting elements for emitting red, green, and blue colors of light each comprise a different species of inorganic light-emitting particles for emitting a different color of light. Each of the red, green, and blue species produces light having an emission spectrum with a full-width, half-maximum of less than or equal to 70 nm.

    Abstract translation: 全彩色发光显示装置具有较大的色域效率。 全色发光显示装置具有多个像素,每个像素具有四种或更多种颜色的发光元件。 发光元件的三种颜色发出红色,绿色和蓝色光,并且发光的发光元件的颜色中的至少一种被感知在由红色,绿色和蓝色的色度坐标定义的色域内, 和蓝色发光元件。 用于发射红,绿和蓝色光的发光元件各自包含用于发射不同颜色的光的不同种类的无机发光颗粒。 红色,绿色和蓝色物种中的每一种产生具有全宽半衰期小于或等于70nm的发射光谱的光。

    DISPLAY AND METHOD FOR MANUFACTURING DISPLAY
    2.
    发明申请
    DISPLAY AND METHOD FOR MANUFACTURING DISPLAY 审中-公开
    显示器和制造显示器的方法

    公开(公告)号:US20080018239A1

    公开(公告)日:2008-01-24

    申请号:US11777425

    申请日:2007-07-13

    Abstract: Disclosed herein a display including: a plurality of organic electroluminescent elements configured to be arranged over a substrate and be each obtained by depositing a lower electrode, an organic layer including at least a light-emitting layer, and an upper electrode in that order, the organic layer of each of the organic electroluminescent elements being adjusted to have a film thickness that allows resonance of a wavelength of luminescent light generated in the light-emitting layer, wherein the film thickness of the organic layer in a first organic electroluminescent element that generates luminescent light having a shortest wavelength among the plurality of organic electroluminescent elements is set larger than the film thickness of the organic layer in a second organic electroluminescent element that generates luminescent light having a wavelength longer than the shortest wavelength of luminescent light generated in the first organic electroluminescent element.

    Abstract translation: 本文公开了一种显示器,其包括:多个有机电致发光元件,其被配置为布置在基板上并且各自通过依次沉积下电极,至少包括发光层的有机层和上电极而获得, 每个有机电致发光元件的有机层被调节为具有允许在发光层中产生的发光光的波长的共振的膜厚度,其中产生发光层的第一有机电致发光元件中的有机层的膜厚度 在第二有机电致发光元件中,多个有机电致发光元件中具有最短波长的光被设定为大于有机电致发光元件中的有机层的膜厚,所述第二有机电致发光元件产生波长长于在第一有机电致发光器件中产生的发光光的最短波长的发光 元件。

    Plasma display panel
    3.
    发明申请
    Plasma display panel 审中-公开
    等离子显示面板

    公开(公告)号:US20070103078A1

    公开(公告)日:2007-05-10

    申请号:US11593581

    申请日:2006-11-07

    Abstract: A plasma display panel may include a first substrate, a second substrate opposing the front substrate, a plurality of discharge cells defined between the first substrate and the second substrate, a plurality of sustain discharge electrode pairs formed on the first substrate, a dielectric layer covering the sustain discharge electrode pairs, electroluminescent (EL) layers formed on the dielectric layer at least partially overlapping the discharge cells, a discharge gas disposed in the discharge cells; and phosphor layers formed in the discharge cells.

    Abstract translation: 等离子体显示面板可以包括第一基板,与前基板相对的第二基板,限定在第一基板和第二基板之间的多个放电单元,形成在第一基板上的多个维持放电电极对,覆盖 所述维持放电电极对,形成在所述电介质层上的与所述放电单元至少部分重叠的电致发光(EL)层,设置在所述放电单元中的放电气体; 以及在放电单元中形成的荧光体层。

    FIELD EMITTING DEVICE AND DISPLAY APPARATUS HAVING THE SAME
    6.
    发明申请
    FIELD EMITTING DEVICE AND DISPLAY APPARATUS HAVING THE SAME 有权
    现场发射装置及其显示装置

    公开(公告)号:US20110050088A1

    公开(公告)日:2011-03-03

    申请号:US12837862

    申请日:2010-07-16

    CPC classification number: H01J1/74

    Abstract: A field emitting device includes a base substrate and at least three light emitting units and configured to respectively emit at least three lights having different wavelengths from each other. Each light emitting unit includes a first electrode arranged on the base substrate, a field emitter arranged on the base substrate, an insulating layer arranged on the first electrode and including an opening to expose the field emitter, a second electrode arranged on the insulating later to control an operation of the field emitter, a third electrode facing the first electrode, and a fluorescent layer arranged on a surface of the third electrode facing the first electrode. A transmissive area is located between the florescent layers of two adjacent light emitting units.

    Abstract translation: 场发射器件包括基底衬底和至少三个发光单元,并且被配置为分别发射具有彼此不同波长的至少三个光。 每个发光单元包括布置在基底基板上的第一电极,布置在基底基板上的场致发射体,布置在第一电极上的绝缘层,并且包括用于暴露场发射极的开口, 控制场发射器的操作,面对第一电极的第三电极和布置在面对第一电极的第三电极的表面上的荧光层。 透射区域位于两个相邻发光单元的荧光层之间。

    Lateral field emission device
    7.
    发明授权
    Lateral field emission device 有权
    侧面场发射装置

    公开(公告)号:US07839070B2

    公开(公告)日:2010-11-23

    申请号:US11477938

    申请日:2006-06-30

    Abstract: A field emission device has pixels with cathode and anode provided on the same plane, so that electrons directly penetrate an independently provided fluorescent powder layer to produce light, giving the display the advantages of easy focusing, no dark spots, high brightness, and enhanced light emitting performance. Since the light produced by the fluorescent powder layer is not blocked by the anode, the problem of charge accumulation on the fluorescent powder layer is avoided, and it is not necessary to use expensive light-transmittable conducting glass as the anode. With the cathode and the anode located at the same plane, it is not necessary to use a high precision spacer to maintain a fixed distance between the cathode and the anode, enabling the device to be manufactured at reduced cost and high good yield.

    Abstract translation: 场发射器件具有设置在同一平面上的阴极和阳极的像素,使得电子直接穿透独立提供的荧光粉层以产生光,使显示器具有容易聚焦,无黑点,高亮度和增强的光的优点 发射性能。 由于由荧光粉层产生的光不被阳极阻挡,所以避免了荧光粉层上的电荷积聚的问题,并且不需要昂贵的透光导电玻璃作为阳极。 在阴极和阳极位于同一平面上的情况下,不需要使用高精度间隔物来保持阴极和阳极之间的固定距离,从而能够以降低的成本和高的良率获得器件的制造。

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