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    • 1. 发明授权
    • Solid-state self-emission display and its production method
    • 固态自发光显示及其制作方法
    • US07053422B2
    • 2006-05-30
    • US10490660
    • 2002-09-30
    • Masahiko AndoToshikazu ShimadaMasatoshi ShiikiShunri OdaNobuyoshi Koshida
    • Masahiko AndoToshikazu ShimadaMasatoshi ShiikiShunri OdaNobuyoshi Koshida
    • H01L33/00
    • H05B33/145H05B33/10H05B33/22
    • The present invention provides a solid state light-emissive display apparatus of high brightness and efficiency, high reliability, and of thin type, and method of manufacturing the same at low cost.Said apparatus has the luminous thin film made up by laminating or mixing crystal fine particle coated with insulator (5) of nm size and fluorescent fine particles (7) of nm size, and the lower electrode and the transparent upper electrode sandwiching said luminous thin film, wherein the electrons injected from said lower electrode are accelerated in the crystal fine particle coated with insulator layer (6) not being scattered by phonons to become high energy ballistic electrons, and form excitons (13) by colliding excitation of fluorescent fine particles. Since said fluorescent fine particles are of nm size, the exciton concentration is high, and luminescence intensity by extinction of excitons is also high.
    • 本发明提供一种高亮度,高效率,高可靠性,薄型的固态发光显示装置及其制造方法。 所述装置具有通过层叠或混合涂覆有nm尺寸的绝缘体(5)和nm尺寸的荧光细颗粒(7)的结晶微粒组成的发光薄膜,并且下电极和透明上电极夹着所述发光薄膜 其特征在于,从所述下部电极注入的电子在不被声子散射的绝缘体层(6)的结晶细小颗粒中被加速,成为高能量的弹道电子,并通过荧光细粒子的激发而形成激子(13)。 由于所述荧光细粒子为nm大小,所以激子浓度高,激子的消光发光强度也高。
    • 7. 发明申请
    • SILICON-BASED BLUE-GREEN PHOSPHORESCENT MATERIAL OF WHICH LUMINESCENCE PEAK CAN BE CONTROLLED BY EXCITATION WAVELENGTH AND PROCESS FOR PRODUCING SILICON-BASED BLUE-GREEN PHOSPHORESCENT MATERIAL
    • 通过激发波长控制光亮度的硅基蓝绿色荧光材料和生产基于硅的蓝绿色磷光体材料的方法
    • US20110204290A1
    • 2011-08-25
    • US13061592
    • 2009-08-26
    • Nobuyoshi KoshidaBernard Gelloz
    • Nobuyoshi KoshidaBernard Gelloz
    • C09K11/59B82Y30/00B82Y40/00
    • C09K11/59
    • Provided is a silicon-based blue phosphorescent material having a longer luminescence lifetime, a high luminescence intensity, and excellent long-term stability and reproducibility. A method for producing a silicon-based blue-green phosphorescent material controllable by an excitation wavelength, which comprises a first step of anodizing the surface of silicon to prepare a nanocrystal silicon or a nanostructure silicon, a second step of processing the nanocrystal silicon or the nanostructure silicon prepared in the first step for rapid thermal oxidation, and a third step of processing the nanocrystal silicon or nanostructure silicon having been processed for rapid thermal oxidation in the second step, for high-pressure water vapor annealing. Further, a silicon-based blue-green phosphorescent material controllable by an excitation wavelength, which comprises a silicon oxide film in which numerous nanoscale crystal silicon or nanostructure silicon embedded therein, and which has a transition property between molecular energy levels through triplet excitons having a relaxation time of not shorter than 1 ms, or luminescence transition through quasi-stable excitation or trap having a relaxation time of not shorter than 1 ms.
    • 具有发光寿命长,发光强度高,长期稳定性和再现性优异的硅系蓝色磷光材料。 一种可由激发波长控制的硅基蓝绿色磷光发光材料的制造方法,其特征在于,包括对硅表面进行阳极氧化以制备纳米晶体硅或纳米结构硅的第一工序,将纳米晶硅或第 在第一步中制备的用于快速热氧化的纳米结构硅,以及在第二步骤中处理用于快速热氧化的纳米晶体硅或纳米结构硅的第三步骤,用于高压水蒸气退火。 此外,由激发波长控制的硅基蓝绿色磷光材料,其包含其中嵌入有许多纳米级晶体硅或纳米结构硅的氧化硅膜,并且其具有通过三线态激子的分子能级之间的转移特性,具有 不小于1ms的弛豫时间,或具有不小于1ms的弛豫时间的准稳态激发或阱的发光跃迁。
    • 10. 发明申请
    • Thermally excited sound wave generating device
    • 热激声波发生装置
    • US20050201575A1
    • 2005-09-15
    • US10524585
    • 2004-02-27
    • Nobuyoshi KoshidaKenji Tsubaki
    • Nobuyoshi KoshidaKenji Tsubaki
    • G10K15/04H04R23/00H04R25/00
    • H04R23/002G10K15/04
    • A thermally induced sound wave generating device comprising a thermally conductive substrate, a head insulation layer formed on one surface of the substrate, and a heating element thin film formed on the heat insulation layer and in the form of an electrically driven metal film, and wherein when the heat conductivity of the thermally conductive substrate is set as αs and its heat capacity is set as Cs, and the thermal conductivity of the beat insulation layer is set as αI and its heat capacity is set as CI, relation of 1/100≧αICI/αSCS and αSCS≧100×106 is realized. This is a new technical means capable of greatly improving the function of a pressure generating device based on thermal induction.
    • 一种热诱导声波发生装置,包括导热基板,形成在所述基板的一个表面上的磁头绝缘层和形成在所述绝热层上并以电驱动的金属膜的形式的加热元件薄膜, 当将导热性基板的导热率设定为αS,将其热容设定为C ,将隔热层的导热率设定为 其热容量被设定为C I I I,其中,1/100> = 1 > /> S /> S和/或S / S> 实现了。 这是一种能够大大提高基于热感应的压力发生装置的功能的新的技术手段。