会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 91. 发明申请
    • ORGANIC ELECTROLUMINESCENT DEVICE AND FABRICATION METHOD THEREOF
    • 有机电致发光器件及其制造方法
    • US20130240867A1
    • 2013-09-19
    • US13989334
    • 2010-11-26
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • H01L51/52H01L51/56
    • H01L51/5203H01L51/5088H01L51/5206H01L51/56
    • An organic electroluminescent device (OELD) and the fabrication method thereof are disclosed. The OELD comprises an anode(1), a cathode(2) opposite to the anode(1) and a light emission structure(3) between the anode(1) and the cathode(2).The OELD also comprises an insulation layer(4) between the anode(1) and the light emission structure(3) and the insulation layer(4) is attached to the anode(1).The material of the insulation layer(4) is a lithium salt compound and the thickness of the insulation layer(4) is 0.5-5 nm. The insulation layer is arranged on the anode(1) to block the velocity of holes injecting into the light emission structure(3) from the anode, thereby ensuring the consistency in the amount of holes and electrons of the light emission structure(3), highly increasing the recombination probability of electrons and holes and reducing the influence of excess holes to the emission property of the device. Therefore the emission property of the device is highly improved.
    • 公开了一种有机电致发光器件(OELD)及其制造方法。 OELD包括阳极(1),与阳极(1)相对的阴极(2)和在阳极(1)和阴极(2)之间的发光结构(3).OELD还包括绝缘层 4)阳极(1)和发光结构(3)之间,绝缘层(4)安装在阳极(1)上。绝缘层(4)的材料是锂盐化合物,其厚度 绝缘层(4)为0.5-5nm。 绝缘层布置在阳极(1)上以阻挡从阳极注入发光结构(3)的空穴的速度,从而确保发光结构(3)的空穴和电子的一致性, 高度增加电子和空穴的复合概率,并减少过量孔对器件发射性能的影响。 因此,器件的发射性能得到很大改善。
    • 92. 发明申请
    • FIELD EMITTING FLAT LIGHT SOURCE AND METHOD FOR MAKING THE SAME
    • 场致发光平板光源及其制作方法
    • US20130119856A1
    • 2013-05-16
    • US13811867
    • 2010-08-17
    • Mingjie ZhouWenbo MaPengrui Shao
    • Mingjie ZhouWenbo MaPengrui Shao
    • H01J63/04H01J9/02
    • H01J63/04H01J9/025H01J31/127H01J63/02H01J63/06
    • A field emission flat light source and a manufacturing method thereof are provided. The field emission flat light source includes an anode (110), a cathode (120), a light guide plate (130) and a separation body (140). The anode (110) and the light guide plate (130) are separated by the separation body (140). The cathode (120) is provided in the contained space (150) formed by the anode (110), the light guide plate (130) and the separation body (140). The anode (110) includes an anode substrate (112), a metal reflective layer (114) provided on the anode substrate (112) and a light emitting layer (116) provided on the metal reflective layer (114). The cathode (120) includes a cathode substrate (122) and an electron emitter (124) provided on the surface of the cathode substrate (122). The thermal conductivity of the field emission flat light source is improved. The field emission flat light source is applied to the field of the liquid crystal display or the illumination light.
    • 提供场发射平面光源及其制造方法。 场发射平面光源包括阳极(110),阴极(120),导光板(130)和分离体(140)。 阳极(110)和导光板(130)由分离体(140)分离。 阴极(120)设置在由阳极(110),导光板(130)和分离体(140)形成的容纳空间(150)中。 阳极(110)包括阳极基板(112),设置在阳极基板(112)上的金属反射层(114)和设置在金属反射层(114)上的发光层(116)。 阴极(120)包括设在阴极基板(122)的表面上的阴极基板(122)和电子发射体(124)。 场致发射平面光源的导热性得到改善。 场发射平面光源被应用于液晶显示器或照明光的场。
    • 93. 发明授权
    • Luminescent glass element, producing method thereof and luminescing method thereof
    • 发光玻璃元件及其制造方法及其发光方法
    • US08415017B2
    • 2013-04-09
    • US13229525
    • 2011-09-09
    • Mingjie ZhouWenbo MaYugang Liu
    • Mingjie ZhouWenbo MaYugang Liu
    • C03C17/06C03C4/12
    • C09K11/7774C03C3/062C03C3/095C03C4/12C03C17/09Y10T428/265
    • The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM2O.bY2O3.cSiO2.dDy2O3, wherein M represents alkali metal element, a, b, c and d are, by mol part, 25-60, 1-30, 20-70 and 0.001-10 respectively. The present invention also provides a producing method of the luminescent glass element and a luminescing method thereof. The metal layer is positioned on the luminescent glass substrate, thereby improving luminescence efficiency of the luminescent glass substrate. The luminescent glass element can be used in luminescent devices with ultrahigh brightness or high-speed operation.
    • 本发明涉及包含发光玻璃基板的发光玻璃元件,金属层位于其表面上。 金属层设有金属微结构。 发光玻璃基板具有由下式表示的复合氧化物:aM2O.bY2O3.cSiO2.dDy2O3,其中M表示碱金属元素,a,b,c和d分别为25-60,1-30,20 -70和0.001-10。 本发明还提供了发光玻璃元件的制造方法及其发光方法。 金属层位于发光玻璃基板上,从而提高发光玻璃基板的发光效率。 发光玻璃元件可用于具有超高亮度或高速操作的发光装置。
    • 98. 发明授权
    • Luminescent glass element, producing method thereof and luminescing method thereof
    • 发光玻璃元件及其制造方法及其发光方法
    • US08115181B2
    • 2012-02-14
    • US13229546
    • 2011-09-09
    • Mingjie ZhouWenbo MaYugang Liu
    • Mingjie ZhouWenbo MaYugang Liu
    • G01N21/64
    • H01J63/06C03C3/062C03C3/095C03C4/12C03C17/09C09K11/7774H01J29/863Y10T428/265
    • The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM2O.bY2O3.cSiO2.dSm2O3, wherein M represents alkali metal element, a, b, c and d are, by mol part, 25-60, 1-30, 20-70 and 0.001-10 respectively. The present invention also provides a producing method of the luminescent glass element and a luminescing method thereof. The metal layer is positioned on the luminescent glass substrate, thereby improving luminescence efficiency of the luminescent glass substrate. The luminescent glass element can be used in luminescent devices with ultrahigh brightness or high-speed operation.
    • 本发明涉及包含发光玻璃基板的发光玻璃元件,金属层位于其表面上。 金属层设有金属微结构。 发光玻璃基板具有由下式表示的复合氧化物:aM2O.bY2O3.cSiO2.dSm2O3,其中M表示碱金属元素,a,b,c和d分别为25-60,1-30,20 -70和0.001-10。 本发明还提供了发光玻璃元件的制造方法及其发光方法。 金属层位于发光玻璃基板上,从而提高发光玻璃基板的发光效率。 发光玻璃元件可用于具有超高亮度或高速操作的发光装置。