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    • 1. 发明申请
    • PARALLEL-TYPE TANDEM ORGANIC SOLAR CELL
    • 并联型有机太阳能电池
    • US20120097230A1
    • 2012-04-26
    • US13378272
    • 2010-09-29
    • Kwanghee LeeJunghwan KimSung-Heum Park
    • Kwanghee LeeJunghwan KimSung-Heum Park
    • H01L51/44
    • H01L27/302H01L51/0036H01L51/0037H01L51/4226H01L51/4273H01L2251/308
    • Provided is a parallel-type tandem organic solar cell. The parallel-type tandem organic solar cell includes: a first electrode; a first photoactive layer formed on the first electrode; a conductive polymer electrode formed on the first photoactive layer; a second photoactive layer formed on the conductive polymer electrode; a second electrode formed on the second photoactive layer; and a connection unit oriented in the direction ranging from the second electrode toward the first electrode so as to electrically connect the first electrode and the second electrode. According to the present invention, the energy conversion efficiency of the cell is improved by the increased photocurrent. Further, the solar cell of the present invention is advantageous in that an intermediate electrode can be made from solution-processable conductive polymers, and each element of the solar cell has a parallel structure, thereby simplifying manufacturing processes and reducing manufacturing costs.
    • 提供了一种平行式串联有机太阳能电池。 并联型串联有机太阳能电池包括:第一电极; 形成在第一电极上的第一光敏层; 形成在第一光敏层上的导电聚合物电极; 形成在导电聚合物电极上的第二光敏层; 形成在所述第二光活性层上的第二电极; 以及在从第二电极朝向第一电极的方向上定向的连接单元,以便电连接第一电极和第二电极。 根据本发明,通过增加的光电流来提高电池的能量转换效率。 此外,本发明的太阳能电池的优点在于,中间电极可以由可溶解处理的导电性聚合物制成,并且太阳能电池的每个元件都具有平行结构,从而简化了制造工艺并降低了制造成本。
    • 2. 发明授权
    • Parallel-type tandem organic solar cell
    • 平行式串联有机太阳能电池
    • US09024180B2
    • 2015-05-05
    • US13378272
    • 2010-09-29
    • Kwanghee LeeJunghwan KimSung-Heum Park
    • Kwanghee LeeJunghwan KimSung-Heum Park
    • H01L31/00H01L27/30H01L51/00H01L51/42
    • H01L27/302H01L51/0036H01L51/0037H01L51/4226H01L51/4273H01L2251/308
    • Provided is a parallel-type tandem organic solar cell. The parallel-type tandem organic solar cell includes: a first electrode; a first photoactive layer formed on the first electrode; a conductive polymer electrode formed on the first photoactive layer; a second photoactive layer formed on the conductive polymer electrode; a second electrode formed on the second photoactive layer; and a connection unit oriented in the direction ranging from the second electrode toward the first electrode so as to electrically connect the first electrode and the second electrode. According to the present invention, the energy conversion efficiency of the cell is improved by the increased photocurrent. Further, the solar cell of the present invention is advantageous in that an intermediate electrode can be made from solution-processable conductive polymers, and each element of the solar cell has a parallel structure, thereby simplifying manufacturing processes and reducing manufacturing costs.
    • 提供了一种平行式串联有机太阳能电池。 并联型串联有机太阳能电池包括:第一电极; 形成在第一电极上的第一光敏层; 形成在第一光敏层上的导电聚合物电极; 形成在导电聚合物电极上的第二光敏层; 形成在所述第二光活性层上的第二电极; 以及在从第二电极朝向第一电极的方向上定向的连接单元,以便电连接第一电极和第二电极。 根据本发明,通过增加的光电流来提高电池的能量转换效率。 此外,本发明的太阳能电池的优点在于,中间电极可以由可溶解处理的导电性聚合物制成,并且太阳能电池的每个元件都具有平行结构,从而简化了制造工艺并降低了制造成本。
    • 6. 发明申请
    • CLOTHES TREATMENT APPARATUS AND CONTROL METHOD THEREOF
    • 衣服治疗装置及其控制方法
    • US20130025154A1
    • 2013-01-31
    • US13639696
    • 2011-04-07
    • Hyeyong ParkKwanghee Lee
    • Hyeyong ParkKwanghee Lee
    • D06M23/00
    • D06F58/203D06F58/10D06F58/20
    • A clothes treatment apparatus (100) includes a cabinet (10) configured to define an accommodating space (12) where clothes are accommodated, an air supply device (22) configured to supply air to the accommodating space (12) of the cabinet (10), an aroma treating part (500) configured to perform aroma treatment toward the accommodating space (12), and a control part configured to control the air supply device (22) and the aroma treating part (500). The aroma treating part (500) includes a mounting part (510) and an aroma module (520) installed in the mounting part (510). Within the accommodating space door (14), the mounting part (510) is detachably mounted to a mounting space part (312) and a control part (314). A motor (512) opens and closed the aroma module (520) and a driving cam (513) coupled to a rotation shaft of the motor (512) is provided in a lower area of a recessed portion (511).
    • 一种衣物处理装置(100),包括:壳体(10),其构造成限定容纳衣物的容纳空间(12);空气供给装置(22),其构造成将空气供给到所述柜体(10)的容纳空间 ),构造成对容纳空间(12)进行香气处理的香气处理部(500);以及控制部,其构造成控制供气装置(22)和香气处理部(500)。 芳香处理部(500)包括安装部(510)和安装在安装部(510)中的香气模块520。 在容纳空间门(14)内,安装部(510)可拆卸地安装在安装空间部(312)和控制部(314)上。 马达(512)打开和关闭香气模块(520),并且耦合到马达(512)的旋转轴的驱动凸轮(513)设置在凹部(511)的下部区域中。
    • 7. 发明申请
    • ELECTRONIC DEVICE WHICH PERFORMS AS LIGHT EMITTING DIODE AND SOLAR CELL
    • 作为发光二极管和太阳能电池的电子设备
    • US20120091473A1
    • 2012-04-19
    • US13378071
    • 2010-11-26
    • Kwanghee LeeInwook HwangHongkyu KangGeunjin Kim
    • Kwanghee LeeInwook HwangHongkyu KangGeunjin Kim
    • H01L31/12
    • H01L27/288H01L51/0037H01L51/4226H01L51/4253
    • An electronic device performing as a light emitting diode and a solar cell, and which comprises: a solar cell unit including a first electrode layer, an energy-level compensation layer formed on the first electrode layer, a photoelectric-conversion layer formed on the energy level compensation layer, and a shared electrode layer formed on the photoelectric-conversion layer; and a light emitting diode unit including the shared electrode layer, and a light emitting layer formed on the shared electrode layer and a second electrode layer formed on the light emitting layer, wherein a LUMO energy-level of the energy-level compensation layer is smaller than a work function of the first electrode layer and is larger than a LUMO energy level of the photoelectric-conversion layer, thereby increasing the generating efficiency of the solar cell unit or the luminous efficiency of the light emitting diode unit due to high electron mobility among the respective layers.
    • 一种执行发光二极管和太阳能电池的电子设备,包括:太阳能电池单元,包括第一电极层,形成在第一电极层上的能级补偿层,形成在能量上的光电转换层 电平补偿层和形成在光电转换层上的共享电极层; 以及包括共享电极层的发光二极管单元和形成在共享电极层上的发光层和形成在发光层上的第二电极层,其中能级补偿层的LUMO能级较小 比第一电极层的功函数大并且大于光电转换层的LUMO能级,由此由于电子迁移率高而使太阳能电池单元的发电效率或发光二极管单元的发光效率提高 各层。