Method for fabricating an electroluminescence device
    6.
    发明授权
    Method for fabricating an electroluminescence device 有权
    电致发光器件的制造方法

    公开(公告)号:US08440480B2

    公开(公告)日:2013-05-14

    申请号:US13196388

    申请日:2011-08-02

    IPC分类号: H01L51/56

    摘要: A nanocrystal electroluminescence device comprising a polymer hole transport layer, a nanocrystal light-emitting layer and an organic electron transport layer wherein the nanocrystal light-emitting layer is independently and separately formed between the polymer hole transport layer and the organic electron transport layer. According to the nanocrystal electroluminescence device, since the hole transport layer, the nanocrystal light-emitting layer and the electron transport layer are completely separated from one another, the electroluminescence device provides a pure nanocrystal luminescence spectrum having limited luminescence from other organic layers and substantially no influence by operational conditions, such as voltage. Further included is a method for fabricating the nanocrystal electroluminescence device.

    摘要翻译: 纳米晶体电致发光器件包括聚合物空穴传输层,纳米晶体发光层和有机电子传输层,其中纳米晶体发光层独立且分别地形成在聚合物空穴传输层和有机电子传输层之间。 根据纳米晶体电致发光器件,由于空穴传输层,纳米晶体发光层和电子传输层彼此完全分离,所以电致发光器件提供纯的纳米晶体发光光谱,其具有来自其它有机层的发光有限并且基本上不含 受操作条件的影响,如电压。 还包括制造纳米晶体电致发光器件的方法。

    Method for fabricating an electroluminescence device
    8.
    发明授权
    Method for fabricating an electroluminescence device 有权
    电致发光器件的制造方法

    公开(公告)号:US08012781B2

    公开(公告)日:2011-09-06

    申请号:US12722903

    申请日:2010-03-12

    IPC分类号: H01L51/56

    摘要: A nanocrystal electroluminescence device comprising a polymer hole transport layer, a nanocrystal light-emitting layer and an organic electron transport layer wherein the nanocrystal light-emitting layer is independently and separately formed between the polymer hole transport layer and the organic electron transport layer. According to the nanocrystal electroluminescence device, since the hole transport layer, the nanocrystal light-emitting layer and the electron transport layer are completely separated from one another, the electroluminescence device provides a pure nanocrystal luminescence spectrum having limited luminescence from other organic layers and substantially no influence by operational conditions, such as voltage. Further, a method for fabricating the nanocrystal electroluminescence device.

    摘要翻译: 纳米晶体电致发光器件包括聚合物空穴传输层,纳米晶体发光层和有机电子传输层,其中纳米晶体发光层独立且分别地形成在聚合物空穴传输层和有机电子传输层之间。 根据纳米晶体电致发光器件,由于空穴传输层,纳米晶体发光层和电子传输层彼此完全分离,所以电致发光器件提供纯的纳米晶体发光光谱,其具有来自其它有机层的发光有限并且基本上不含 受操作条件的影响,如电压。 另外,制造纳米晶体电致发光元件的方法。

    Method of preparing cadmium sulfide nanocrystals emitting light at multiple wavelengths, and cadmium sulfide nanocrystals prepared by the method
    9.
    发明授权
    Method of preparing cadmium sulfide nanocrystals emitting light at multiple wavelengths, and cadmium sulfide nanocrystals prepared by the method 有权
    制备发射多波长光的硫化镉纳米晶体的方法和通过该方法制备的硫化镉纳米晶体

    公开(公告)号:US07468168B2

    公开(公告)日:2008-12-23

    申请号:US11002490

    申请日:2004-12-03

    IPC分类号: C01G11/02

    摘要: A method for preparing cadmium sulfide nanocrystals emitting light at multiple wavelengths. The method comprises the steps of (a) mixing a cadmium precursor and a dispersant in a solvent that weakly coordinates to the cadmium precursor, and heating the mixture to obtain a cadmium precursor solution, (b) dissolving a sulfur precursor in a solvent that weakly coordinates to the sulfur precursor to obtain a sulfur precursor solution, and (c) feeding the sulfur precursor solution to the heated cadmium precursor solution maintained at a high temperature to prepare cadmium sulfide crystals, and growing the cadmium sulfide crystals. Further, cadmium sulfide nanocrystals prepared by the method. The cadmium sulfide nanocrystals have uniform size and shape and can emit light close to white light simultaneously at different wavelengths upon excitation. Due to these characteristics, the cadmium sulfide nanocrystals can be applied to white light-emitting diode devices.

    摘要翻译: 一种制备发射多波长光的硫化镉纳米晶体的方法。 该方法包括以下步骤:(a)将镉前体与分散剂混合在与镉前体弱配位的溶剂中,加热混合物得到镉前体溶液,(b)将硫前体溶于弱溶剂中 与硫前体配位以获得硫前体溶液,和(c)将硫前体溶液供给到保持在高温下的加热镉前体溶液以制备硫化镉晶体,并生长硫化镉晶体。 此外,通过该方法制备的硫化镉纳米晶体。 硫化镉纳米晶体具有均匀的尺寸和形状,并且可以在激发时以不同的波长同时发射接近白光的光。 由于这些特性,硫化镉纳米晶体可以应用于白色发光二极管器件。