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    • 3. 发明授权
    • Luminous body
    • 发光体
    • US07862738B2
    • 2011-01-04
    • US11662545
    • 2006-10-10
    • Tadashi UedaSeikoh YamauchiJiro KanamoriYoshisada Hayashi
    • Tadashi UedaSeikoh YamauchiJiro KanamoriYoshisada Hayashi
    • C09K11/87
    • C09K11/876H05B33/14
    • The present invention relates to an inorganic composition mainly containing a compound semiconductor, wherein the inorganic composition contains iridium element. The invention also relates to a method of producing an inorganic composite for producing an luminescent material, wherein the method comprises subjecting an inorganic composition mainly containing a compound semiconductor to an explosion by gunpowder and/or explosive in a sealed vessel.An inorganic composite for producing a luminescent material can be prepared by subjecting an inorganic composition to a doping treatment such as explosive treatment or heat-treatment. The inorganic composite can further be heat-treated to produce a luminescent material. The resulting luminescent material can be formed into a layer as a light emitter layer of an inorganic EL device.
    • 本发明涉及主要含有化合物半导体的无机组合物,其中无机组合物含有铱元素。 本发明还涉及一种生产发光材料的无机复合材料的方法,其中所述方法包括使主要含有化合物半导体的无机组合物在密封容器中通过火药和/或炸药进行爆炸。 用于制备发光材料的无机复合材料可以通过使无机组合物进行诸如爆炸处理或热处理的掺杂处理来制备。 无机复合材料可以进一步被热处理以产生发光材料。 所得到的发光材料可以形成为无机EL器件的发光层的层。
    • 5. 发明申请
    • luminous body
    • 发光体
    • US20090051282A1
    • 2009-02-26
    • US11662545
    • 2006-10-10
    • Tadashi UedaSeikoh YamauchiJiro KanamoriYoshisada Hayashi
    • Tadashi UedaSeikoh YamauchiJiro KanamoriYoshisada Hayashi
    • H01J1/62C09K11/77C09K11/08C09K11/66
    • C09K11/876H05B33/14
    • The present invention relates to an inorganic composition mainly containing a compound semiconductor, wherein the inorganic composition contains iridium element. The invention also relates to a method of producing an inorganic composite for producing an luminescent material, wherein the method comprises subjecting an inorganic composition mainly containing a compound semiconductor to an explosion by gunpowder and/or explosive in a sealed vessel.An inorganic composite for producing a luminescent material can be prepared by subjecting an inorganic composition to a doping treatment such as explosive treatment or heat-treatment. The inorganic composite can further be heat-treated to produce a luminescent material. The resulting luminescent material can be formed into a layer as a light emitter layer of an inorganic EL device.
    • 本发明涉及主要含有化合物半导体的无机组合物,其中无机组合物含有铱元素。 本发明还涉及一种生产发光材料的无机复合材料的方法,其中所述方法包括使主要含有化合物半导体的无机组合物在密封容器中通过火药和/或炸药进行爆炸。 用于制备发光材料的无机复合材料可以通过使无机组合物进行诸如爆炸处理或热处理的掺杂处理来制备。 无机复合材料可以进一步被热处理以产生发光材料。 所得到的发光材料可以形成为无机EL器件的发光层的层。
    • 7. 发明申请
    • MANUFACTURING METHOD FOR LUMINOUS BODY, LUMINOUS BODY, AND LIGHT-EMITTING APPARATUS
    • 发光体,发光体和发光装置的制造方法
    • US20090033229A1
    • 2009-02-05
    • US11814186
    • 2006-01-18
    • Jiro KanamoriYoshisada Hayashi
    • Jiro KanamoriYoshisada Hayashi
    • H05B37/02B05D3/10
    • H05B33/10C09K11/7703
    • In a high luminance, long-life luminous body, a method for manufacturing the luminous body, and a light-emitting apparatus according to the present invention, an inorganic EL device, which is formed by stacking a back electrode, a dielectric layer, a luminescent layer, a dielectric layer, and a transparent electrode in that order, is used. An activator containing Pr, Mn, and Au is mixed into a base material comprised of strontium sulfide (SrS) and the resulting mixture is heated to activate the base material. Then GaAs and InP are added to the mixture, following which the mixture thus prepared is baked in a nitrogen atmosphere containing sulfur gas to produce the luminous body. By mixing the luminous body thus prepared and an ultraviolet curing dielectric substance, the luminescent layer can be obtained.
    • 在本发明的高亮度,长寿命的发光体,发光体的制造方法以及发光装置中,通过将背面电极,电介质层, 发光层,电介质层和透明电极。 将包含Pr,Mn和Au的活化剂混合到由硫化锶(SrS)组成的基材中,并将所得混合物加热以活化基材。 然后将GaAs和InP加入到混合物中,然后将如此制备的混合物在含有硫气的氮气氛中烘烤以产生发光体。 通过将如此制备的发光体和紫外线固化电介质混合,可以获得发光层。