Encapsulated Organic Electronic Device With Improved Resistance To Degradation
    1.
    发明申请
    Encapsulated Organic Electronic Device With Improved Resistance To Degradation 审中-公开
    具有改善抗降解性的封装有机电子器件

    公开(公告)号:US20090066244A1

    公开(公告)日:2009-03-12

    申请号:US12209176

    申请日:2008-09-11

    CPC classification number: H01L51/5203 H01L27/3281 H01L51/524

    Abstract: An encapsulated organic electronic device is provided with: a substrate; at least one first elementary component and one second elementary component set above the substrate, each of said first and second elementary components being provided with a respective first electrode set above the substrate, a respective region of organic material set above the first electrode, and a respective second electrode set above the region of organic material at least partially in an area corresponding to the first electrode; and an encapsulation structure, defining an encapsulation space isolated from an external environment and designed to protect the first and second elementary components from the external environment. In particular, the regions of organic material of the first and second elementary components are separated and distinct from one another and are set entirely within the encapsulation space.

    Abstract translation: 封装的有机电子器件设置有:衬底; 至少一个第一基本部件和一个第二基本部件,设置在所述基板上方,所述第一和第二基本部件中的每一个在基板上方设置有相应的第一电极组,设置在第一电极上方的有机材料的相应区域,以及 至少部分地在对应于第一电极的区域中的有机材料区域上方的相应的第二电极; 以及封装结构,其定义与外部环境隔离并且被设计为保护第一和第二基本组件免受外部环境的封装空间。 特别地,第一和第二基本部件的有机材料的区域彼此分离和分离,并且完全设置在封装空间内。

    Organic electroluminescent device with isolation region for improved light emission and systems including same
    2.
    发明授权
    Organic electroluminescent device with isolation region for improved light emission and systems including same 有权
    具有用于改善发光的隔离区域的有机电致发光器件及包括其的系统

    公开(公告)号:US08405303B2

    公开(公告)日:2013-03-26

    申请号:US11582137

    申请日:2006-10-16

    CPC classification number: H01L27/3246 H01L51/5284

    Abstract: An electroluminescent device includes at least first and second radiation emitter devices arranged on a common substrate. Each radiation emitter devise includes a first active layer and a second layer of organic material for generating the radiation, respectively. This device includes isolation means of dielectric material which are at least partially interposed between the first and second active layers to electrically isolate the first layer from the second active layer.

    Abstract translation: 电致发光器件至少包括布置在公共衬底上的第一和第二辐射发射器器件。 每个辐射发射器设备分别包括用于产生辐射的第一有源层和第二有机材料层。 该装置包括介电材料的隔离装置,其至少部分插入在第一和第二有源层之间以将第一层与第二有源层电隔离。

    OPTICALLY CONTROLLED ELECTRICAL-SWITCH DEVICE BASED UPON CARBON NANOTUBES AND ELECTRICAL-SWITCH SYSTEM USING THE SWITCH DEVICE
    3.
    发明申请
    OPTICALLY CONTROLLED ELECTRICAL-SWITCH DEVICE BASED UPON CARBON NANOTUBES AND ELECTRICAL-SWITCH SYSTEM USING THE SWITCH DEVICE 有权
    基于碳纳米管的光控电气设备和使用开关装置的电开关系统

    公开(公告)号:US20110212566A1

    公开(公告)日:2011-09-01

    申请号:US13082805

    申请日:2011-04-08

    CPC classification number: B82Y10/00 G11C13/025 G11C13/04 G11C13/047

    Abstract: Described herein is an optically controlled electrical-switch device which includes a first current-conduction terminal and a second current-conduction terminal, and a carbon nanotube connected between the first and the second current-conduction terminals, the carbon nanotube being designed to be impinged upon by electromagnetic radiation and having an electrical conductivity that can be varied by varying the polarization of the electromagnetic radiation incident thereon. In particular, the carbon nanotube may for example, in given conditions of electrical biasing, present a high electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially parallel to the axis of the carbon nanotube itself, and a reduced electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially orthogonal to the axis of the carbon nanotube itself.

    Abstract translation: 这里描述的是一种光学控制的电气开关装置,其包括第一导电端子和第二导通端子以及连接在第一和第二电流传导端子之间的碳纳米管,碳纳米管设计成被撞击 通过电磁辐射并且具有可以通过改变入射在其上的电磁辐射的极化而改变的电导率。 特别地,碳纳米管可以例如在给定的电偏置条件下,当其受到具有给定波长的电磁辐射和基本上平行于碳纳米管本身的极化的极化的冲击时,呈现高导电性,并且 当具有给定波长的电磁辐射和与碳纳米管本身的轴线基本正交的极化时,其导电性降低。

    Optically controlled electrical-switch device based upon carbon nanotubes and electrical-switch system using the switch device
    4.
    发明授权
    Optically controlled electrical-switch device based upon carbon nanotubes and electrical-switch system using the switch device 有权
    基于碳纳米管的光控电气开关装置和使用开关装置的电气开关系统

    公开(公告)号:US07944011B2

    公开(公告)日:2011-05-17

    申请号:US12551468

    申请日:2009-08-31

    CPC classification number: B82Y10/00 G11C13/025 G11C13/04 G11C13/047

    Abstract: Described herein is an optically controlled electrical-switch device which includes a first current-conduction terminal and a second current-conduction terminal, and a carbon nanotube connected between the first and the second current-conduction terminals, the carbon nanotube being designed to be impinged upon by electromagnetic radiation and having an electrical conductivity that can be varied by varying the polarization of the electromagnetic radiation incident thereon. In particular, the carbon nanotube may for example, in given conditions of electrical biasing, present a high electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially parallel to the axis of the carbon nanotube itself, and a reduced electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially orthogonal to the axis of the carbon nanotube itself.

    Abstract translation: 这里描述的是一种光学控制电开关器件,其包括第一导通端子和第二电流传导端子以及连接在第一和第二电流传导端子之间的碳纳米管,碳纳米管设计成被撞击 通过电磁辐射并且具有可以通过改变入射在其上的电磁辐射的极化而改变的电导率。 特别地,碳纳米管可以例如在给定的电偏置条件下,当其受到具有给定波长的电磁辐射和基本上平行于碳纳米管本身的极化的极化的冲击时,呈现高导电性,并且 当具有给定波长的电磁辐射和与碳纳米管本身的轴线基本正交的极化时,其导电性降低。

    METHOD FOR REALIZING A THIN FILM ORGANIC ELECTRONIC DEVICE AND CORRESPONDING DEVICE
    5.
    发明申请
    METHOD FOR REALIZING A THIN FILM ORGANIC ELECTRONIC DEVICE AND CORRESPONDING DEVICE 有权
    实现薄膜有机电子器件和相关器件的方法

    公开(公告)号:US20100127250A1

    公开(公告)日:2010-05-27

    申请号:US12625202

    申请日:2009-11-24

    CPC classification number: H01L51/0023 H01L51/0035 H01L51/0541 H01L2251/105

    Abstract: A method realizes a thin film organic electronic device integrated on a substrate and includes an organic material layer and an organic thin film transistor or OTFT transistor. The method comprises: depositing the organic material layer on the substrate, the organic material layer being a conductive organic polymer; patterning by a soft-lithographic procedure the organic material layer to create a reduced portion in order to make a channel area of the OTFT transistor; masking the organic material layer by covering with a cover mask a source area and a drain area of the OTFT transistor; irradiating by ultraviolet radiation to deactivate exposed portions of the organic material layer defining the source area, the drain area and the channel area; depositing on the organic material layer a semiconductor layer; and creating on the semiconductor layer a gate area of the OTFT transistor.

    Abstract translation: 一种实现集成在基板上的薄膜有机电子器件,包括有机材料层和有机薄膜晶体管或OTFT晶体管。 该方法包括:将有机材料层沉积在基底上,有机材料层为导电有机聚合物; 通过软光刻工艺图案化有机材料层以形成减小的部分,以便形成OTFT晶体管的沟道面积; 通过用覆盖掩模覆盖OTFT晶体管的源极区域和漏极区域来掩蔽有机材料层; 通过紫外线照射来去激活限定源极区域,漏极区域和沟道区域的有机材料层的暴露部分; 在有机材料层上沉积半导体层; 以及在所述半导体层上形成所述OTFT晶体管的栅极区域。

    OPTICALLY CONTROLLED ELECTRICAL-SWITCH DEVICE BASED UPON CARBON NANOTUBES AND ELECTRICAL-SWITCH SYSTEM USING THE SWITCH DEVICE
    6.
    发明申请
    OPTICALLY CONTROLLED ELECTRICAL-SWITCH DEVICE BASED UPON CARBON NANOTUBES AND ELECTRICAL-SWITCH SYSTEM USING THE SWITCH DEVICE 有权
    基于碳纳米管的光控电气设备和使用开关装置的电开关系统

    公开(公告)号:US20090321619A1

    公开(公告)日:2009-12-31

    申请号:US12551468

    申请日:2009-08-31

    CPC classification number: B82Y10/00 G11C13/025 G11C13/04 G11C13/047

    Abstract: Described herein is an optically controlled electrical-switch device which includes a first current-conduction terminal and a second current-conduction terminal, and a carbon nanotube connected between the first and the second current-conduction terminals, the carbon nanotube being designed to be impinged upon by electromagnetic radiation and having an electrical conductivity that can be varied by varying the polarization of the electromagnetic radiation incident thereon. In particular, the carbon nanotube may for example, in given conditions of electrical biasing, present a high electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially parallel to the axis of the carbon nanotube itself, and a reduced electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially orthogonal to the axis of the carbon nanotube itself.

    Abstract translation: 这里描述的是一种光学控制的电气开关装置,其包括第一导电端子和第二导通端子以及连接在第一和第二电流传导端子之间的碳纳米管,碳纳米管设计成被撞击 通过电磁辐射并且具有可以通过改变入射在其上的电磁辐射的极化而改变的电导率。 特别地,碳纳米管可以例如在给定的电偏置条件下,当其受到具有给定波长的电磁辐射和基本上平行于碳纳米管本身的极化的极化的冲击时,呈现高导电性,并且 当具有给定波长的电磁辐射和与碳纳米管本身的轴线基本正交的极化时,其导电性降低。

    Method for realizing a thin film organic electronic device and corresponding device
    8.
    发明授权
    Method for realizing a thin film organic electronic device and corresponding device 有权
    实现薄膜有机电子器件及其相应器件的方法

    公开(公告)号:US08143091B2

    公开(公告)日:2012-03-27

    申请号:US12625202

    申请日:2009-11-24

    CPC classification number: H01L51/0023 H01L51/0035 H01L51/0541 H01L2251/105

    Abstract: A method realizes a thin film organic electronic device integrated on a substrate and includes an organic material layer and an organic thin film transistor or OTFT transistor. The method comprises: depositing the organic material layer on the substrate, the organic material layer being a conductive organic polymer; patterning by a soft-lithographic procedure the organic material layer to create a reduced portion in order to make a channel area of the OTFT transistor; masking the organic material layer by covering with a cover mask a source area and a drain area of the OTFT transistor; irradiating by ultraviolet radiation to deactivate exposed portions of the organic material layer defining the source area, the drain area and the channel area; depositing on the organic material layer a semiconductor layer; and creating on the semiconductor layer a gate area of the OTFT transistor.

    Abstract translation: 一种实现集成在基板上的薄膜有机电子器件,包括有机材料层和有机薄膜晶体管或OTFT晶体管。 该方法包括:将有机材料层沉积在基底上,有机材料层为导电有机聚合物; 通过软光刻工艺图案化有机材料层以形成减小的部分,以便形成OTFT晶体管的沟道面积; 通过用覆盖掩模覆盖OTFT晶体管的源极区域和漏极区域来掩蔽有机材料层; 通过紫外线照射来去激活限定源极区域,漏极区域和沟道区域的有机材料层的暴露部分; 在有机材料层上沉积半导体层; 以及在所述半导体层上形成所述OTFT晶体管的栅极区域。

    Optically controlled electrical-switch device based upon carbon nanotubes and electrical-switch system using the switch device
    9.
    发明授权
    Optically controlled electrical-switch device based upon carbon nanotubes and electrical-switch system using the switch device 有权
    基于碳纳米管的光控电气开关装置和使用开关装置的电气开关系统

    公开(公告)号:US08143086B2

    公开(公告)日:2012-03-27

    申请号:US13082805

    申请日:2011-04-08

    CPC classification number: B82Y10/00 G11C13/025 G11C13/04 G11C13/047

    Abstract: Described herein is an optically controlled electrical-switch device which includes a first current-conduction terminal and a second current-conduction terminal, and a carbon nanotube connected between the first and the second current-conduction terminals, the carbon nanotube being designed to be impinged upon by electromagnetic radiation and having an electrical conductivity that can be varied by varying the polarization of the electromagnetic radiation incident thereon. In particular, the carbon nanotube may for example, in given conditions of electrical biasing, present a high electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially parallel to the axis of the carbon nanotube itself, and a reduced electrical conductivity when it is impinged upon by electromagnetic radiation having a given wavelength and a polarization substantially orthogonal to the axis of the carbon nanotube itself.

    Abstract translation: 这里描述的是一种光学控制的电气开关装置,其包括第一导电端子和第二导通端子以及连接在第一和第二电流传导端子之间的碳纳米管,碳纳米管设计成被撞击 通过电磁辐射并且具有可以通过改变入射在其上的电磁辐射的极化而改变的电导率。 特别地,碳纳米管可以例如在给定的电偏置条件下,当其受到具有给定波长的电磁辐射和基本上平行于碳纳米管本身的极化的极化的冲击时,呈现高导电性,并且 当具有给定波长的电磁辐射和与碳纳米管本身的轴线基本正交的极化时,其导电性降低。

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