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    • 2. 发明申请
    • Organic Component
    • 有机成分
    • US20090009071A1
    • 2009-01-08
    • US12158482
    • 2006-12-21
    • Sven MuranoJan BirnstockAnsgar WernerMartin VehseMichael Hofmann
    • Sven MuranoJan BirnstockAnsgar WernerMartin VehseMichael Hofmann
    • H01J1/62
    • H01L51/5052H01L51/5088H01L51/5092
    • The invention relates to an organic component, in particular a light-emitting organic component, having an electrode (1; 2) and a counter electrode (2; 1) and also an arrangement of organic layers (3) which is arranged between the electrode (1; 2) and the counterelectrode (2; 1) and which is in electrical contact with the electrode (1; 2) and the counterelectrode (2; 1), the arrangement of organic layers (3) comprising charge carrier transport layers (4, 8) for transporting charge carriers injected from the electrode (1; 2) and from the counterelectrode (2; 1) into the arrangement of organic layers (3), and with an injection layer (5; 9) made from a molecular doping material being formed in the arrangement of organic layers (3) between the electrode (1; 2) and a charge carrier transport layer (4; 8) arranged opposite to the electrode (1; 2), which injection layer is in contact with the charge carrier transport layer (4; 8) arranged opposite to the electrode (1; 2), the molecular doping material having a molecular weight of at least 300 g/mol.
    • 本发明涉及具有电极(1; 2)和对电极(2; 1)的有机组分,特别是发光有机组分,还涉及一种有机层(3)的布置在电极 (1; 2)和反电极(2; 1),并与电极(1; 2)和反电极(2; 1)电接触,包括电荷载流子传输层 用于将从电极(1; 2)注入的电荷载流子和从反电极(2; 1)注入到有机层(3)的排列中的电荷载体和用分子的注入层(5; 9) 在电极(1; 2)和与电极(1; 2)相对布置的电荷载流子传输层(4; 8)之间的有机层(3)的排列中形成掺杂材料,该注入层与 与电极(1; 2)相对布置的电荷载流子传输层(4; 8),分子掺杂 材料的分子量至少为300g / mol。
    • 3. 发明授权
    • Transparent light-emitting component
    • 透明发光元件
    • US07915815B2
    • 2011-03-29
    • US11908302
    • 2006-03-02
    • Jan BirnstockSven MuranoMartin Vehse
    • Jan BirnstockSven MuranoMartin Vehse
    • H05B33/28
    • H01L51/5234H01L51/5052H01L51/5215H01L51/5262H01L51/5265H01L51/5275H01L2251/5323H01L2251/558
    • The invention relates to a transparent light-emitting component, in particular organic light-emitting diode, having a transparent layer arrangement in which are formed, on a substrate in a stack, planar electrodes and an organic region arranged between the planar electrodes, which organic region comprises a light-emitting layer, made from one or a plurality of organic materials. For at least one direction of incidence, a transmittance of the transparent layer arrangement for at least one wavelength subrange in the visible spectral range is greater than 50%. One of the planar electrodes has a metal layer having a thickness of less than 40 nm, and another of the planar electrodes, which is arranged opposite to the electrode in the layer arrangement, has an oxide layer made from an electrically conductive oxide material having a thickness of at least 10 nm, an intensity ratio of at least 2:1 being formed for a light emission emerging on one side of the transparent layer arrangement and a light emission emerging on an opposite side of the transparent layer arrangement.
    • 本发明涉及一种透明的发光元件,特别是有机发光二极管,其透明层结构形成在堆叠的基板上,平面电极和布置在平面电极之间的有机区域,有机 区域包括由一种或多种有机材料制成的发光层。 对于至少一个入射方向,在可见光谱范围内至少一个波长亚范围的透明层布置的透射率大于50%。 平面电极中的一个具有厚度小于40nm的金属层,并且与层电极中的电极相对布置的另一平面电极具有由导电氧化物材料制成的氧化物层,该氧化物层具有 形成至少10nm的厚度,对于在透明层布置的一侧上出现的发光形成至少2:1的强度比,以及出现在透明层布置的相对侧上的光。
    • 4. 发明授权
    • Organic component
    • 有机成分
    • US09112175B2
    • 2015-08-18
    • US12158482
    • 2006-12-21
    • Sven MuranoJan BirnstockAnsgar WernerMartin VehseMichael Hofmann
    • Sven MuranoJan BirnstockAnsgar WernerMartin VehseMichael Hofmann
    • H01J63/04H01L51/50
    • H01L51/5052H01L51/5088H01L51/5092
    • The invention relates to an organic component, in particular a light-emitting organic component, having an electrode (1; 2) and a counter electrode (2; 1) and also an arrangement of organic layers (3) which is arranged between the electrode (1; 2) and the counterelectrode (2; 1) and which is in electrical contact with the electrode (1; 2) and the counterelectrode (2; 1), the arrangement of organic layers (3) comprising charge carrier transport layers (4, 8) for transporting charge carriers injected from the electrode (1; 2) and from the counterelectrode (2; 1) into the arrangement of organic layers (3), and with an injection layer (5; 9) made from a molecular doping material being formed in the arrangement of organic layers (3) between the electrode (1; 2) and a charge carrier transport layer (4; 8) arranged opposite to the electrode (1; 2), which injection layer is in contact with the charge carrier transport layer (4; 8) arranged opposite to the electrode (1; 2), the molecular doping material having a molecular weight of at least 300 g/mol.
    • 本发明涉及具有电极(1; 2)和对电极(2; 1)的有机组分,特别是发光有机组分,还涉及一种有机层(3)的布置在电极 (1; 2)和反电极(2; 1),并与电极(1; 2)和反电极(2; 1)电接触,包括电荷载流子传输层 用于将从电极(1; 2)注入的电荷载流子和从反电极(2; 1)注入到有机层(3)的排列中的电荷载体和用分子的注入层(5; 9) 在电极(1; 2)和与电极(1; 2)相对布置的电荷载流子传输层(4; 8)之间的有机层(3)的排列中形成掺杂材料,该注入层与 与电极(1; 2)相对布置的电荷载流子传输层(4; 8),分子掺杂 材料的分子量至少为300g / mol。
    • 6. 发明申请
    • TRANSPARENT LIGHT-EMITTING COMPONENT
    • 透明发光元件
    • US20090267490A1
    • 2009-10-29
    • US11908302
    • 2006-03-02
    • Jan BirnstockSven MuranoMartin Vehse
    • Jan BirnstockSven MuranoMartin Vehse
    • H01J1/62
    • H01L51/5234H01L51/5052H01L51/5215H01L51/5262H01L51/5265H01L51/5275H01L2251/5323H01L2251/558
    • The invention relates to a transparent light-emitting component, in particular organic light-emitting diode, having a transparent layer arrangement in which are formed, on a substrate in a stack, planar electrodes and an organic region arranged between the planar electrodes, which organic region comprises a light-emitting layer, made from one or a plurality of organic materials. For at least one direction of incidence, a transmittance of the transparent layer arrangement for at least one wavelength subrange in the visible spectral range is greater than 50%. One of the planar electrodes has a metal layer having a thickness of less than 40 nm, and another of the planar electrodes, which is arranged opposite to the electrode in the layer arrangement, has an oxide layer made from an electrically conductive oxide material having a thickness of at least 10 nm, an intensity ratio of at least 2:1 being formed for a light emission emerging on one side of the transparent layer arrangement and a light emission emerging on an opposite side of the transparent layer arrangement.
    • 本发明涉及一种透明的发光元件,特别是有机发光二极管,其透明层结构形成在堆叠的基板上,平面电极和布置在平面电极之间的有机区域,有机 区域包括由一种或多种有机材料制成的发光层。 对于至少一个入射方向,在可见光谱范围内至少一个波长亚范围的透明层布置的透射率大于50%。 平面电极中的一个具有厚度小于40nm的金属层,并且与层电极中的电极相对布置的另一平面电极具有由导电氧化物材料制成的氧化物层,该氧化物层具有 形成至少10nm的厚度,对于在透明层布置的一侧上出现的发光形成至少2:1的强度比,以及出现在透明层布置的相对侧上的光。
    • 7. 发明申请
    • Top-Emitting, Electroluminescent Component with at Least One Organic Layer
    • 顶部发光,具有至少一个有机层的电致发光元件
    • US20080048557A1
    • 2008-02-28
    • US11572458
    • 2005-07-12
    • Jan BirnstockMartin VehseTilmann Romainczyk
    • Jan BirnstockMartin VehseTilmann Romainczyk
    • H01L51/54H01L51/56
    • H01L51/5268H01L2251/5315
    • In order to improve the decoupling efficiency in a top-emitting OLED a top-emitting electroluminescent component (100) is suggested comprising a substrate, a first electrode (120) nearest to the substrate, a second electrode (14) located at a distance from the substrate, and at least one light-emitting organic layer (130) arranged between both electrodes, the emitted light being transmitted through the second electrode. The component in accordance with the invention is distinguished by an additional layer (150) facing away from the at least one organic layer is arranged on the side of the second electrode, which additional layer comprises optically effective light-emitting heterogeneities (151, 152, 153), especially in the form of scatter centers, the degree of transmission of the additional layer of the emitted light being greater than 0.6. This additional layer can be applied by various wet-chemical processes and vacuum methods, the inhomogeneities being introduced into and/or applied onto the decoupling additional layer during or after the application process. Furthermore, the invention also relates to a method for producing such a component.
    • 为了提高顶部发射OLED中的去耦效率,建议包括基板,最靠近基板的第一电极(120)和位于距离基板最远的第二电极(14)的顶部发射电致发光部件(100) 衬底和布置在两个电极之间的至少一个发光有机层(130),所发射的光透射通过第二电极。 根据本发明的部件的特征在于,在第二电极的侧面上布置有背离所述至少一个有机层的附加层(150),该附加层包括光学上有效的发光异质性(151,152, 特别是以散射中心的形式,发射光的附加层的透射度大于0.6。 该附加层可以通过各种湿化学方法和真空方法施加,在施加过程中或之后将不均匀性引入和/或施加到去耦附加层上。 此外,本发明还涉及一种生产这种组分的方法。
    • 8. 发明申请
    • Component Based on Organic Light-Emitting Diodes and Method For Producing the Same
    • 基于有机发光二极管的元件及其制造方法
    • US20080164807A1
    • 2008-07-10
    • US11574058
    • 2005-08-24
    • Michael HofmannJan BirnstockMartin Vehse
    • Michael HofmannJan BirnstockMartin Vehse
    • H01L27/32H01J9/02
    • H01L27/3246H01L51/5268
    • In order to improve the fill factor as well as the efficiency for a structural element on the basis of an organic light-emitting diode facility, a display is proposed comprising a substrate, a first electrode (130) nearest to the substrate, a second electrode (160) away from the substrate and at least one light-emitting organic layer (150) arranged between both electrodes. The light emitted in the active zone transmits through one of the two electrodes whereby the first electrode is pixel-structured and an isolation layer (150) is arranged between neighbouring pixels. The display according to the invention is characterized in that the isolation layer (150) is optically coupled with the light-emitting layer (150), and has optically effective light-scattering and fill factor increasing heterogeneities (180, 190), whereby the isolation layer is micro-structured to match the pixel structure of the first electrode and is processed onto this.In addition, the invention concerns also a method for the manufacture of such a display.
    • 为了在有机发光二极管设备的基础上改善填充因子以及结构元件的效率,提出了一种显示器,其包括基板,最靠近基板的第一电极(130),第二电极 (160)和布置在两个电极之间的至少一个发光有机层(150)。 在有源区中发射的光透过两个电极中的一个,由此第一电极是像素结构的,隔离层(150)布置在相邻像素之间。 根据本发明的显示器的特征在于,隔离层(150)与发光层(150)光学耦合,并且具有光学有效的光散射和填充因子增加的异质性(180,190),由此隔离 层是微结构以匹配第一电极的像素结构并被处理到其上。 此外,本发明还涉及制造这种显示器的方法。
    • 9. 发明授权
    • Top-emitting, electroluminescent component with at least one organic layer
    • 具有至少一个有机层的顶部发光,电致发光成分
    • US08022619B2
    • 2011-09-20
    • US11572458
    • 2005-07-12
    • Jan BirnstockMartin VehseTilmann Romainczk
    • Jan BirnstockMartin VehseTilmann Romainczk
    • H01J1/54H01J1/53
    • H01L51/5268H01L2251/5315
    • In order to improve the decoupling efficiency in a top-emitting OLED a top-emitting electroluminescent component (100) is suggested comprising a substrate, a first electrode (120) nearest to the substrate, a second electrode (14) located at a distance from the substrate, and at least one light-emitting organic layer (130) arranged between both electrodes, the emitted light being transmitted through the second electrode. The component in accordance with the invention is distinguished by an additional layer (150) facing away from the at least one organic layer is arranged on the side of the second electrode, which additional layer comprises optically effective light-emitting heterogeneities (151, 152, 153), especially in the form of scatter centers, the degree of transmission of the additional layer of the emitted light being greater than 0.6. This additional layer can be applied by various wet-chemical processes and vacuum methods, the inhomogeneities being introduced into and/or applied onto the decoupling additional layer during or after the application process. Furthermore, the invention also relates to a method for producing such a component.
    • 为了提高顶部发射OLED中的去耦效率,建议包括基板,最靠近基板的第一电极(120)和位于距离基板最远的第二电极(14)的顶部发射电致发光部件(100) 衬底和布置在两个电极之间的至少一个发光有机层(130),所发射的光透射通过第二电极。 根据本发明的部件的特征在于,在第二电极的侧面上布置有背离所述至少一个有机层的附加层(150),该附加层包括光学上有效的发光异质性(151,152, 特别是以散射中心的形式,发射光的附加层的透射度大于0.6。 该附加层可以通过各种湿化学方法和真空方法施加,在施加过程中或之后将不均匀性引入和/或施加到去耦附加层上。 此外,本发明还涉及一种生产这种组分的方法。
    • 10. 发明授权
    • Top emitting, electroluminescent component with frequency conversion centres
    • 具有变频中心的顶级发光,电致发光元件
    • US07781961B2
    • 2010-08-24
    • US11574419
    • 2005-08-30
    • Jan BirnstockMartin VehseKarl Leo
    • Jan BirnstockMartin VehseKarl Leo
    • H05B33/04
    • H01L51/5262H01L51/5036H01L2251/5315
    • In order, in the case of an OLED, to improve the coupling-out efficiency, a top emitting electroluminescent component (100) is proposed, comprising a substrate (110), a first electrode (120) closest to the substrate, a transparent electrode (140) located at a distance from the substrate, and at least one light-emitting organic layer (130) arranged between the two electrodes. The component according to the invention is distinguished by the fact that a coupling-out layer (150) is arranged on that side of the second electrode which is remote from the at least one organic layer, said coupling-out layer comprising conversion centres (151) which partly absorb the light emitted by the at least one organic layer and emit it again with an altered frequency. In this way, directional light penetrating into the coupling-out layer is emitted again in non-directional fashion, so that a part of the light which would be captured by means of total reflection without the influence of the frequency conversion centres within the coupling-out layer can indeed leave the coupling-out layer.
    • 为了在OLED的情况下,为了提高耦合效率,提出了一种顶部发射电致发光元件(100),其包括基板(110),最靠近基板的第一电极(120),透明电极 (140)和位于两个电极之间的至少一个发光有机层(130)。 根据本发明的部件的特征在于耦合输出层(150)布置在远离至少一个有机层的第二电极的该侧上,所述耦合输出层包括转换中心(151) ),其部分地吸收由至少一个有机层发射的光并以改变的频率再次发射。 以这种方式,穿透到耦合出层的定向光再次以非定向的方式发射,使得通过全反射捕获的光的一部分不受频率转换的影响中心在耦合 - 输出层确实可以离开耦合层。