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    • 1. 发明申请
    • ORGANIC ELECTROLUMINESCENT DEVICE HAVING TERNARY DOPED HOLE TRANSPORTATION LAYER AND PREPARATION METHOD THEREFOR
    • 具有三角孔输送层的有机电致发光器件及其制备方法
    • US20140319506A1
    • 2014-10-30
    • US14347039
    • 2011-11-28
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • Mingjie ZhouPing WangHui HuangJixing Chen
    • H01L51/50H01L51/00H01L51/56
    • H01L51/506H01L51/0002H01L51/0061H01L51/0081H01L51/56
    • Disclosed are an organic electroluminescent device having ternary doped hole transportation layer and a preparation method therefor. The electroluminescent device comprises a conductive anode substrate (1), a ternary doped hole transportation layer (2), a light-emitting layer (3), an electron transportation layer (4), an electron injecting layer (5) and a cathode layer (6), wherein the material for the ternary doped hole transportation layer (2) is a mixed material made by doping a cerium salt and a hole transportation material into a metal compound. The electroluminescent device forms p-doping by doping the cerium salt and the hold transportation material into the metal compound, which improves the ability of injecting and transporting holes, and increases the efficiency of light emission. Since the material for the ternary doped hole transportation layer (2) is predominately a metal compound, the process difficulty and manufacturing costs are reduced, facilitating industrial production and commercial applications.
    • 公开了具有三元掺杂孔输送层的有机电致发光器件及其制备方法。 电致发光器件包括导电阳极衬底(1),三元掺杂空穴传输层(2),发光层(3),电子传输层(4),电子注入层(5)和阴极层 (6),其中所述三元掺杂空穴传输层(2)的材料是通过将铈盐和空穴传输材料掺杂到金属化合物中而制成的混合材料。 电致发光器件通过将铈盐和保持输送材料掺杂到金属化合物中形成p掺杂,这提高了注入和传输空穴的能力,并且提高了发光效率。 由于三元掺杂孔输送层(2)的材料主要是金属化合物,所以工艺难度和制造成本降低,促进了工业生产和商业应用。
    • 5. 发明授权
    • Zinc manganese silicate containing metal particles luminescent materials and preparation methods thereof
    • 含锌锰酸锰的金属颗粒发光材料及其制备方法
    • US09115309B2
    • 2015-08-25
    • US13703342
    • 2010-06-30
    • Mingjie ZhouWenbo MaChaopu Shi
    • Mingjie ZhouWenbo MaChaopu Shi
    • C09K11/59C09K11/87C01B33/20
    • C09K11/59C01B33/20C09K11/595C09K11/87C09K11/876
    • Zinc manganese silicate containing metal particles luminescent materials and preparation methods thereof are provided. The said luminescent materials are a blend of metal M nanoparticles and Zn2-xSiO4:Mnx, wherein M is one of Ag, Au and Pt, 0.001≦x≦0.1, 0.00001≦y≦0.01, y is the molar ratio of M to Zn2-xSiO4:Mnx. The said methods include the following steps: step 1, preparing silica aerogel containing metal particles; step 2, weighing source compound of zinc, source compound of manganese and the silica aerogel in step 1 at stoichiometric ratio and mixing them to form mixture; step 3, sintering the mixture in step 2, then cooling and grinding to form the said luminescent materials with higher luminescent intensity. The said methods have simple steps, easy operation, low sintering temperature and low cost.
    • 提供了含有金属锰酸锰的发光材料及其制备方法。 所述发光材料是金属M纳米颗粒和Zn2-xSiO4:Mnx的共混物,其中M是Ag,Au和Pt之一,0.001和n1E; x和nlE; 0.1,0.00001& nlE; y≦̸ 0.01,y是M 到Zn2-xSiO4:Mnx。 所述方法包括以下步骤:步骤1,制备含有金属颗粒的二氧化硅气凝胶; 步骤2,在化学计量比下,在步骤1中称量锌源,锰源和二氧化硅气凝胶,混合形成混合物; 步骤3,在步骤2中烧结混合物,然后冷却和研磨以形成具有较高发光强度的所述发光材料。 所述方法操作简单,操作简便,烧结温度低,成本低。
    • 9. 发明申请
    • SOLID ELECTROLYTE BATTERY
    • 固体电解质电池
    • US20150037655A1
    • 2015-02-05
    • US14377933
    • 2012-03-28
    • Mingjie ZhouLinglong ZhongYaobing Wang
    • Mingjie ZhouLinglong ZhongYaobing Wang
    • H01M10/04H01M10/052H01M4/62H01M10/0565H01M4/66H01M4/60
    • H01M10/04H01M4/587H01M4/602H01M4/624H01M4/661H01M10/0418H01M10/044H01M10/052H01M10/0525H01M10/0565H01M10/0585H01M2220/30H01M2300/0082
    • A solid electrolyte battery comprises a positive plate (1), a negative plate (2), several composite electrode plates (3) and several solid electrolyte (4), wherein the number of the solid electrolyte (4) is one more than the number of the composite electrode plates (3). The positive plate (1) and the negative plate (2) are spaced oppositely, the composite electrode plates (3) are between the positive plate (1) and the negative plate (2), and both sides of the composite electrode plates (3) are laminated with the positive plate (1) and the negative plate (2) by the solid electrolyte (4), respectively, the structure of the solid electrolyte battery is formed. There is the solid electrolyte battery according to the invention, because the all surfaces of the positive plate (1), the composite electrode plates (3), the negative plate (2) are coated by the positive active material and/or negative material which may form the positive and negative capacitor structures, the positive active material and the negative active material can form good layered laminate structure with the solid electrolyte (4), thus internal resistance of battery is greatly reduced, so as to benefit migration of ions, therefore capacity of battery is improved.
    • 固体电解质电池包括正极板(1),负极板(2),几个复合电极板(3)和几个固体电解质(4),其中固体电解质(4)的数量多于数量 的复合电极板(3)。 正极板(1)和负极板(2)相对地间隔开,复合电极板(3)位于正极板(1)和负极板(2)之间,复合电极板(3) )分别与固体电解质(4)与正极板(1)和负极板(2)层压,形成固体电解质电池的结构。 根据本发明的固体电解质电池,由于正极板(1),复合电极板(3),负极板(2)的所有表面都被正极活性材料和/或负极材料涂覆, 可以形成正负电容器结构,正极活性材料和负极活性材料可以与固体电解质(4)形成良好的层状叠层结构,从而大大降低电池内阻,从而有利于离子的迁移 电池容量提高。
    • 10. 发明申请
    • ORGANIC ELECTROLUMINESCENCE DEVICE AND METHOD FOR MANUFACTURE THEREOF
    • 有机电致发光器件及其制造方法
    • US20140332796A1
    • 2014-11-13
    • US14372214
    • 2012-03-31
    • Mingjie ZhouPing WangXiaoming FengJixing Chen
    • Mingjie ZhouPing WangXiaoming FengJixing Chen
    • H01L51/50H01L51/00
    • H01L51/5024B82Y10/00H01L51/0001H01L51/0021H01L51/0045H01L51/5215H01L51/5275H01L2251/56
    • An organic electroluminescence device (100, 200) comprises a substrate (110), an anode (130), a light emitting layer (160) and a cathode (190) stacked sequentially. The anode (130) comprises a light transmittance increased layer (131), a conductive layer (132) and a hole injection auxiliary layer (133) stacked on the substrate (110) sequentially. The materials of the light transmittance increased layer (131) are inorganic compounds of zinc with a light transmittance of 400 nm to 800 nm in the visible region and a refractive index greater than 2.3. The material of the conductive layer (132) is graphene. The utilization of light transmittance increased principle for multilayer anode structure can make the light transmittance of the anode in the visible region high and surface resistance low. The utilization of inorganic material with hole injection ability can reduce the hole injection barrier, make the luminous performance of the organic electroluminescence device (100, 200) stable and luminous efficiency high. A method for manufacturing the organic electroluminescence device (100, 200) is also provided. The anode is prepared by vacuum evaporation and pulling method, which is convenient to operate and is suitable for large scale production.
    • 有机电致发光器件(100,200)包括依次堆叠的衬底(110),阳极(130),发光层(160)和阴极(190)。 阳极(130)依次包括层叠在基板(110)上的透光率增加层(131),导电层(132)和空穴注入辅助层(133)。 透光率增加层(131)的材料是可见光区的透光率为400nm〜800nm,折射率大于2.3的锌的无机化合物。 导电层(132)的材料是石墨烯。 利用透光率增加原理,多层阳极结构可使阳极在可见光区域的透光率高,表面电阻较低。 利用具有空穴注入能力的无机材料可以减少空穴注入势垒,使有机电致发光器件(100,200)的发光性能稳定,发光效率高。 还提供了一种用于制造有机电致发光器件(100,200)的方法。 阳极采用真空蒸发拉拔法制备,操作方便,适合大规模生产。