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    • 2. 发明授权
    • Multi-device OLED
    • 多器件OLED
    • US09240563B2
    • 2016-01-19
    • US13877665
    • 2011-09-29
    • Holger SchwabVolker Lambert Van ElsbergenHerbert Friedrich BoernerDetlef RaaschSören Hartmann
    • Holger SchwabVolker Lambert Van ElsbergenHerbert Friedrich BoernerDetlef RaaschSören Hartmann
    • H01L51/00H01L51/52H01L27/32H01L51/56H01L51/40
    • H01L51/52H01L27/3209H01L51/5203H01L51/56
    • The invention describes a multi-device OLED (1) comprising a device layer stack (100) comprising a bottom electrode (11), a top electrode (14), at least one inter electrode (13) and plurality of active layers (120, 121), wherein the bottom electrode (11) is applied to a substrate (10), and each active layer (120, 121) is enclosed between two electrodes (11, 13, 14); a current distribution means (500) comprising a current distribution layer (51, 53, 54) for each electrode (11, 13, 14) of the device layer stack (100); a plurality of openings (110, 130) extending from the top electrode (14) into the device layer stack (100), wherein each opening (110, 130) exposes a contact region (111, 131) of an electrode (11, 13); and a plurality of electrical connectors (41, 42), wherein an electrical connector (41, 42) extends into an opening (110, 130) to electrically connect the electrode (11, 13) exposed by that opening (110, 130) to the current distribution layer (53, 54) for that electrode (11, 13). The invention also describes a method of manufacturing such a multi-device OLED. The invention further describes a method of driving such a multi-device OLED, which method comprises applying a voltage across at least one pair (51, 53, 53, 54) of current distribution layers (51, 53, 54) of the current distribution means (500) to stimulate the corresponding active layer (120, 121) of a device of the multi-device OLED (1).
    • 本发明描述了一种多器件OLED(1),其包括包括底部电极(11),顶部电极(14),至少一个内部电极(13)和多个有源层(120)的器件层堆叠(100) 121),其中所述底部电极(11)被施加到基板(10),并且每个有源层(120,121)被包围在两个电极(11,13,14)之间; 电流分布装置(500),其包括用于装置层堆叠(100)的每个电极(11,13,14)的电流分布层(51,53,54); 从所述顶部电极(14)延伸到所述器件层叠层(100)中的多个开口(110,130),其中每个开口(110,130)暴露电极(11,13)的接触区域(111,131) ); 以及多个电连接器(41,42),其中电连接器(41,42)延伸到开口(110,130)中以将由该开口(110,130)暴露的电极(11,13)电连接到 用于该电极(11,13)的电流分布层(53,54)。 本发明还描述了制造这种多器件OLED的方法。 本发明还描述了一种驱动这种多器件OLED的方法,该方法包括在电流分布的电流分布层(51,53,54)的至少一对(51,53,53,54)上施加电压 用于刺激多器件OLED(1)的器件的相应有源层(120,121)的装置(500)。
    • 3. 发明申请
    • MULTI-DEVICE OLED
    • 多器件OLED
    • US20130187148A1
    • 2013-07-25
    • US13877665
    • 2011-09-29
    • Holger SchwabVolker Lambert Van ElsbergenHerbert Friedrich BoernerDetlef RaaschSören Hartmann
    • Holger SchwabVolker Lambert Van ElsbergenHerbert Friedrich BoernerDetlef RaaschSören Hartmann
    • H01L51/52H01L51/56
    • H01L51/52H01L27/3209H01L51/5203H01L51/56
    • The invention describes a multi-device OLED (1) comprising a device layer stack (100) comprising a bottom electrode (11), a top electrode (14), at least one inter electrode (13) and plurality of active layers (120, 121), wherein the bottom electrode (11) is applied to a substrate (10), and each active layer (120, 121) is enclosed between two electrodes (11, 13, 14); a current distribution means (500) comprising a current distribution layer (51, 53, 54) for each electrode (11, 13, 14) of the device layer stack (100); a plurality of openings (110, 130) extending from the top electrode (14) into the device layer stack (100), wherein each opening (110, 130) exposes a contact region (111, 131) of an electrode (11, 13); and a plurality of electrical connectors (41, 42), wherein an electrical connector (41, 42) extends into an opening (110, 130) to electrically connect the electrode (11, 13) exposed by that opening (110, 130) to the current distribution layer (53, 54) for that electrode (11, 13). The invention also describes a method of manufacturing such a multi-device OLED. The invention further describes a method of driving such a multi-device OLED, which method comprises applying a voltage across at least one pair (51, 53, 53, 54) of current distribution layers (51, 53, 54) of the current distribution means (500) to stimulate the corresponding active layer (120, 121) of a device of the multi-device OLED (1).
    • 本发明描述了一种多器件OLED(1),其包括包括底部电极(11),顶部电极(14),至少一个内部电极(13)和多个有源层(120)的器件层堆叠(100) 121),其中所述底部电极(11)被施加到基板(10),并且每个有源层(120,121)被包围在两个电极(11,13,14)之间; 电流分布装置(500),其包括用于装置层堆叠(100)的每个电极(11,13,14)的电流分布层(51,53,54); 从所述顶部电极(14)延伸到所述器件层叠层(100)中的多个开口(110,130),其中每个开口(110,130)暴露电极(11,13)的接触区域(111,131) ); 以及多个电连接器(41,42),其中电连接器(41,42)延伸到开口(110,130)中以将由该开口(110,130)暴露的电极(11,13)电连接到 用于该电极(11,13)的电流分布层(53,54)。 本发明还描述了制造这种多器件OLED的方法。 本发明还描述了一种驱动这种多器件OLED的方法,该方法包括在电流分布的电流分布层(51,53,54)的至少一对(51,53,53,54)上施加电压 用于刺激多器件OLED(1)的器件的相应有源层(120,121)的装置(500)。
    • 6. 发明授权
    • Self-aligned coverage of opaque conductive areas
    • 不透明导电区域的自对准覆盖
    • US08865394B2
    • 2014-10-21
    • US13816251
    • 2011-07-29
    • Sören HartmannChristoph RickersHerbert Friedrich BoernerHerbert LifkaHolger Schwab
    • Sören HartmannChristoph RickersHerbert Friedrich BoernerHerbert LifkaHolger Schwab
    • H01L21/70G03F7/20H01L51/52H01L51/00
    • H01L21/707H01L51/00H01L51/5212
    • The invention relates to a method enabling to apply cheap manufacturing techniques for producing reliable and robust organic thin film device (EL) comprising the steps of providing (P) a transparent substrate (1) at least partly covered with a first layer stack comprising at least one transparent layer (2), preferably an electrically conductive layer, and a pattern of first and second opaque conductive areas (31, 32) deposited on top of the transparent layer (2), depositing (D) a photoresist layer (4) made of an electrically insulating photoresist resist material on top of the first layer stack at least fully covering the second opaque conductive areas (32), illuminating (IL) the photoresist layer (4) through the transparent substrate (1) with light (5) of a suitable wavelength to make the photoresist material soluble in the areas (43) of the photoresist layer (4) having no opaque conductive areas (31, 32) underneath, removing (R) the soluble areas (43) of the photoresist layer (4), heating (B) the areas (42) of the photoresist layer (4) remaining on top of at least the second opaque conductive areas (32) to re-flow the photoresist layer (4) to cover the edges (E) of the second opaque conductive areas (32) in contact to the transparent layer (2), and hardening (H) the remaining areas (42) of the photoresist layer (4). The invention further relates to a conductive component (CC) for use in these organic thin film devices (EL) and to the organic thin film devices (EL) itself.
    • 本发明涉及一种能够应用便宜的制造技术来生产可靠和坚固的有机薄膜器件(EL)的方法,包括以下步骤:提供(P)至少部分地覆盖有至少包括第一层堆叠的第一层堆叠的透明衬底(1) 一个透明层(2),优选导电层,以及沉积在透明层(2)的顶部上的第一和第二不透明导电区域(31,32)的图案,沉积(D)制成的光致抗蚀剂层(4) 至少完全覆盖第二不透明导电区域(32)的第一层堆叠顶部上的电绝缘光致抗蚀剂材料,通过透明衬底(1)照射(IL)光致抗蚀剂层(4),其中光(5) 使光致抗蚀剂材料可溶于光致抗蚀剂层(4)的在其下方没有不透明导电区域(31,32)的区域(43)中的合适波长,去除光致抗蚀剂层(4)的可溶性区域(43) ),他 (B)至少第二不透明导电区域(32)的顶部上的光致抗蚀剂层(4)的区域(42),以再次流过光致抗蚀剂层(4)以覆盖第二不透明导电区域的边缘(E) 与透明层(2)接触的不透明导电区域(32),以及硬化(H)光致抗蚀剂层(4)的剩余区域(42)。 本发明还涉及用于这些有机薄膜器件(EL)和有机薄膜器件(EL)本身的导电元件(CC)。
    • 7. 发明申请
    • SELF-ALIGNED COVERAGE OF OPAQUE CONDUCTIVE AREAS
    • OPAQUE导电区域的自对准覆盖
    • US20130146859A1
    • 2013-06-13
    • US13816251
    • 2011-07-29
    • Sören HartmannChristoph RickersHerbert Friedrich BoernerHerbert LifkaHolger Schwab
    • Sören HartmannChristoph RickersHerbert Friedrich BoernerHerbert LifkaHolger Schwab
    • H01L21/70H01L51/00
    • H01L21/707H01L51/00H01L51/5212
    • The invention relates to a method enabling to apply cheap manufacturing techniques for producing reliable and robust organic thin film device (EL) comprising the steps of providing (P) a transparent substrate (1) at least partly covered with a first layer stack comprising at least one transparent layer (2), preferably an electrically conductive layer, and a pattern of first and second opaque conductive areas (31, 32) deposited on top of the transparent layer (2), depositing (D) a photoresist layer (4) made of an electrically insulating photoresist resist material on top of the first layer stack at least fully covering the second opaque conductive areas (32), illuminating (IL) the photoresist layer (4) through the transparent substrate (1) with light (5) of a suitable wavelength to make the photoresist material soluble in the areas (43) of the photoresist layer (4) having no opaque conductive areas (31, 32) underneath, removing (R) the soluble areas (43) of the photoresist layer (4), heating (B) the areas (42) of the photoresist layer (4) remaining on top of at least the second opaque conductive areas (32) to re-flow the photoresist layer (4) to cover the edges (E) of the second opaque conductive areas (32) in contact to the transparent layer (2), and hardening (H) the remaining areas (42) of the photoresist layer (4). The invention further relates to a conductive component (CC) for use in these organic thin film devices (EL) and to the organic thin film devices (EL) itself.
    • 本发明涉及一种能够应用便宜的制造技术来生产可靠和坚固的有机薄膜器件(EL)的方法,包括以下步骤:提供(P)至少部分地覆盖有至少包括第一层堆叠的第一层堆叠的透明衬底(1) 一个透明层(2),优选导电层,以及沉积在透明层(2)的顶部上的第一和第二不透明导电区域(31,32)的图案,沉积(D)制成的光致抗蚀剂层(4) 至少完全覆盖第二不透明导电区域(32)的第一层堆叠顶部上的电绝缘光致抗蚀剂材料,通过透明衬底(1)照射(IL)光致抗蚀剂层(4),其中光(5) 使光致抗蚀剂材料可溶于光致抗蚀剂层(4)的在其下方没有不透明导电区域(31,32)的区域(43)中的合适波长,去除光致抗蚀剂层(4)的可溶性区域(43) ),他 (B)至少第二不透明导电区域(32)的顶部上的光致抗蚀剂层(4)的区域(42),以再次流过光致抗蚀剂层(4)以覆盖第二不透明导电区域的边缘(E) 与透明层(2)接触的不透明导电区域(32),以及硬化(H)光致抗蚀剂层(4)的剩余区域(42)。 本发明还涉及用于这些有机薄膜器件(EL)和有机薄膜器件(EL)本身的导电元件(CC)。
    • 8. 发明申请
    • ORGANIC ELECTROLUMINESCENT DEVICE
    • 有机电致发光器件
    • US20130143337A1
    • 2013-06-06
    • US13816266
    • 2011-08-22
    • Holger SchwabHerbert Friedrich Friedrich BoernerVolker Lambert Van ElsbergenDetlef RaaschSören Hartmann
    • Holger SchwabHerbert Friedrich Friedrich BoernerVolker Lambert Van ElsbergenDetlef RaaschSören Hartmann
    • H01L51/56
    • H01L51/56H01L27/3204H01L51/524H01L51/5243
    • The invention relates to OLED devices (1) operational at high voltages providing a good life time performance, which can be manufactured with reduced effort and costs. The organic electroluminescent device (1) comprising a substrate (2) carrying multiple electroluminescent layer stacks (3) connected in series each comprising a first and a second electrode (31, 33) and an organic light emitting layer stack (32) arranged between the first and second electrode (31, 33), a cover lid (4) sealed to the substrate (2) to encapsulate the electroluminescent layer stacks (3) providing a gap (5) between the electroluminescent layer stacks (3) and an inner side (41) of the cover lid (4), where the connection in series is established by connecting the first electrode (31) of at least one of the electroluminescent layer stacks (3) involved in the serial connection via a conductive bridge (6) to the second electrode (33) of another electroluminescent layer stack (3) involved in the serial connection, preferably the adjacent electroluminescent layer stack (3), where the conductive bridge (6) comprises an conductive path (62) arranged on the inner side (41) of the cover lid (4), a first electrical connection (61) connecting the first electrode (31) to the conductive path (62) and a second electrical connection (63) connecting the conductive path (62) with the second electrode (33) of the other electroluminescent layer stack (3), preferably the adjacent electroluminescent layer stack (3). The invention further relates to a method providing the organic electroluminescent device (1) with process steps leading to a reduced effort and costs.
    • 本发明涉及在高电压下工作的OLED器件(1),其提供良好的寿命性能,其可以以减少的努力和成本来制造。 有机电致发光器件(1)包括具有串联连接的多个电致发光层堆叠(3)的衬底(2),每个包括第一和第二电极(31,33)和有机发光层堆叠(32) 第一和第二电极(31,33),密封到基板(2)的盖盖(4),以封装在电致发光层堆叠(3)之间提供间隙(5)的电致发光层堆叠(3) (4)中的至少一个电致发光层堆叠(3)的第一电极(31)经由导电桥(6)连接而形成串联的连接, 涉及串联连接的另一电致发光层堆叠(3)的第二电极(33),优选地为相邻的电致发光层叠层(3),其中导电桥(6)包括布置在内侧的导电路径(62) (41) (4),将第一电极(31)连接到导电路径(62)的第一电连接(61)和将导电路径(62)与第二电极(33)连接的第二电连接(63) 另一个电致发光层堆叠(3),优选相邻的电致发光层叠层(3)。 本发明还涉及提供有机电致发光器件(1)的方法,其方法步骤减少了工作量和成本。
    • 9. 发明授权
    • Organic electroluminescent device
    • 有机电致发光器件
    • US08785220B2
    • 2014-07-22
    • US13816266
    • 2011-08-22
    • Holger SchwabHerbert Friedrich Friedrich BoernerVolker Lambert Van ElsbergenDetlef RaaschSören Hartmann
    • Holger SchwabHerbert Friedrich Friedrich BoernerVolker Lambert Van ElsbergenDetlef RaaschSören Hartmann
    • H01L21/00
    • H01L51/56H01L27/3204H01L51/524H01L51/5243
    • The invention relates to OLED devices (1) operational at high voltages providing a good life time performance, which can be manufactured with reduced effort and costs. The organic electroluminescent device (1) comprising a substrate (2) carrying multiple electroluminescent layer stacks (3) connected in series each comprising a first and a second electrode (31, 33) and an organic light emitting layer stack (32) arranged between the first and second electrode (31, 33), a cover lid (4) sealed to the substrate (2) to encapsulate the electroluminescent layer stacks (3) providing a gap (5) between the electroluminescent layer stacks (3) and an inner side (41) of the cover lid (4), where the connection in series is established by connecting the first electrode (31) of at least one of the electroluminescent layer stacks (3) involved in the serial connection via a conductive bridge (6) to the second electrode (33) of another electroluminescent layer stack (3) involved in the serial connection, preferably the adjacent electroluminescent layer stack (3), where the conductive bridge (6) comprises an conductive path (62) arranged on the inner side (41) of the cover lid (4), a first electrical connection (61) connecting the first electrode (31) to the conductive path (62) and a second electrical connection (63) connecting the conductive path (62) with the second electrode (33) of the other electroluminescent layer stack (3), preferably the adjacent electroluminescent layer stack (3). The invention further relates to a method providing the organic electroluminescent device (1) with process steps leading to a reduced effort and costs.
    • 本发明涉及在高电压下工作的OLED器件(1),其提供良好的寿命性能,其可以以减少的努力和成本来制造。 有机电致发光器件(1)包括具有串联连接的多个电致发光层堆叠(3)的衬底(2),每个包括第一和第二电极(31,33)和有机发光层堆叠(32) 第一和第二电极(31,33),密封到基板(2)的盖盖(4),以封装在电致发光层堆叠(3)之间提供间隙(5)的电致发光层堆叠(3) (4)中的至少一个电致发光层堆叠(3)的第一电极(31)经由导电桥(6)连接而形成串联的连接, 涉及串联连接的另一电致发光层堆叠(3)的第二电极(33),优选地为相邻的电致发光层叠层(3),其中导电桥(6)包括布置在内侧的导电路径(62) (41) (4),将第一电极(31)连接到导电路径(62)的第一电连接(61)和将导电路径(62)与第二电极(33)连接的第二电连接(63) 另一个电致发光层堆叠(3),优选相邻的电致发光层叠层(3)。 本发明还涉及提供有机电致发光器件(1)的方法,其方法步骤减少了工作量和成本。
    • 10. 发明申请
    • TRANSPARENT LIGHT EMITTING DEVICE WITH CONTROLLED EMISSION
    • 具有控制排放的透明发光装置
    • US20130092914A1
    • 2013-04-18
    • US13704730
    • 2011-06-15
    • Herbert LifkaSören HartmannHerbert Friedrich BoernerChristoph Rickers
    • Herbert LifkaSören HartmannHerbert Friedrich BoernerChristoph Rickers
    • H01L51/10H01L33/42
    • H01L51/102H01L27/3209H01L27/3239H01L33/42H01L51/0021H01L51/5206H01L51/5209H01L51/5212H01L2251/5307H01L2251/5323H01L2251/5338H01L2251/5361
    • The present invention relates to a light emitting device comprising: a transparent substrate (11); partially transparent an anode layer (12) or layer assembly arranged on said substrate (11); a light emitting layer (13) arranged on said anode layer (12); and a transparent cathode layer (14) arranged on said light emitting layer; (13) wherein said anode layer (12) or layer assembly comprises a first surface (15) facing said substrate (11) and a second surface (16) facing said light emitting layer (13) and is positioned opposite to said first surface (15); said first surface (15) comprises a transparent conductive material; said second surface (16) comprises first (17) and second domains (18); said first domains (17) are conductive and non-transparent; said second domains (18) are transparent and electrically isolating; and said first domains (17) are in direct contact with said light emitting layer (13) and are arranged to allow electrical contact between said first surface (15) and said light emitting layer (13). The light emitting device can be applied in transparent OLED devices to allow for the possibility of controlled emission.
    • 发光装置技术领域本发明涉及一种发光装置,包括:透明基板(11); 部分透明地布置在所述基底(11)上的阳极层(12)或层组件; 布置在所述阳极层(12)上的发光层(13)。 和布置在所述发光层上的透明阴极层(14); (13),其中所述阳极层(12)或层组件包括面向所述衬底(11)的第一表面(15)和面对所述发光层(13)的第二表面(16)并且与所述第一表面 15); 所述第一表面(15)包括透明导电材料; 所述第二表面(16)包括第一(17)和第二畴(18); 所述第一域(17)是导电和不透明的; 所述第二区域(18)是透明和电隔离的; 并且所述第一区域(17)与所述发光层(13)直接接触并且被布置成允许所述第一表面(15)和所述发光层(13)之间的电接触。 发光器件可以应用于透明OLED器件中以允许受控发射的可能性。