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    • 7. 发明申请
    • TRANSISTOR WITH TUNNELING DUST ELECTRODE
    • 带隧道式电极的晶体管
    • WO2006033794A3
    • 2006-06-22
    • PCT/US2005031043
    • 2005-09-01
    • FUJI TECHNOSURVEY CO LTDUNIV CALIFORNIAYANG YANGHARUO KAWAKAMI
    • YANG YANGHARUO KAWAKAMI
    • H01L29/08H01L29/74
    • H01L51/0504H01L51/0055H01L51/0508H01L51/055
    • A transistor-like electronic device operates somewhat as a triode vacuum tube. Two electrodes (20, 21) (source and drain) sandwich an intermediate layer (30, 31) of organic semiconductor material in which fine metallic particles (40) are dispersed. Due to the fineness and number of the particles, they are close enough to each other that electrons can tunnel from one to the next, so that a voltage impressed at the edge (45) of the intermediate layer (30, 31) causes current to flow through the dispersed particles, and causes the entire layer (30, 31) to reach the impressed voltage. By varying the impressed voltage, the voltage of the intermediate layer (30, 31) is caused to vary, which controls conduction between the source and drain (20, 21). By making the particles small, the proportion of open area between the particles remains large so the electrons have room to move around the particles and through the organic material in intermediate layer (30, 31), allowing high currents to flow through the device.
    • 晶体管状电子器件稍微作为三极管真空管工作。 两个电极(20,21)(源极和漏极)夹着分散有金属微粒(40)的有机半导体材料的中间层(30,31)。 由于颗粒的细度和数量,它们彼此足够接近,电子可以从一个隧穿到下一个,使得在中间层(30,31)的边缘(45)处施加的电压使电流 流过分散的颗粒,并使整个层(30,31)达到外加电压。 通过改变外加电压,使得中间层(30,31)的电压发生变化,从而控制源极和漏极(20,21)之间的导通。 通过使颗粒变小,颗粒之间的开放面积的比例保持较大,因此电子具有在颗粒周围移动的空间,并通过中间层(30,31)中的有机材料移动,允许高电流流过该装置。
    • 10. 发明申请
    • POLARIZING PHOTOVOLTAIC DEVICES AND APPLICATIONS IN LCD DISPLAYS AND TANDEM SOLAR CELLS
    • 将液晶显示器和TANDEM太阳能电池中的光电器件和应用极化
    • WO2012142168A2
    • 2012-10-18
    • PCT/US2012033133
    • 2012-04-11
    • UNIV CALIFORNIAYANG YANGZHU RUI
    • YANG YANGZHU RUI
    • G02F1/1335G02B5/30
    • H01L31/18B82Y10/00G02B5/3025G02F1/133528G02F2001/13324H01L27/302H01L51/0012H01L51/0036H01L51/0047H01L51/42H01L51/4253Y02E10/549
    • An electro-optic device includes a first electrode, a second electrode spaced apart from the first electrode, and an active layer of organic semiconducting material between the first electrode and the second electrode. The active layer includes a quasi-bilayer in which a first plurality molecules from a first layer of active material is interpenetrated by a second plurality of molecules from a second layer of active material formed on the first layer. The first and second pluralities of molecules provide donor-acceptor pairs such that the quasi-bilayer has at least a portion that is a bulk heterojunction active layer. Each of the first plurality of molecules has a long axis that is longer than corresponding transverse axes and the long axis is substantially aligned along a common direction such that the active layer is more sensitive to a first polarization of incident light than a second polarization of the incident light, wherein the first polarization and the second polarization are orthogonal polarization components of the light.
    • 电光装置包括第一电极,与第一电极间隔开的第二电极和在第一电极和第二电极之间的有机半导体材料的有源层。 活性层包括准双层,其中来自活性材料的第一层的第一多个分子由形成在第一层上的第二活性材料层的第二多个分子互穿。 第一和第二多个分子提供供体 - 受体对,使得准双层具有至少一部分是体异质结活性层。 第一多个分子中的每个分子具有比对应的横轴更长的长轴,并且长轴基本上沿着公共方向排列,使得有源层对入射光的第一偏振比第二极化的偏振更敏感 入射光,其中所述第一偏振和所述第二偏振是所述光的正交偏振分量。