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    • 6. 发明授权
    • Coated articles and/or devices with optical out-coupling layer stacks (OCLS), and/or methods of making the same
    • 具有光输出耦合层堆叠(OCLS)的涂覆制品和/或装置,和/或制造它们的方法
    • US08608525B1
    • 2013-12-17
    • US13488779
    • 2012-06-05
    • Vijayen S. Veerasamy
    • Vijayen S. Veerasamy
    • G06F3/045H01B7/02
    • H01L51/5268
    • Certain example embodiments relate to organic light emitting diode (OLED) inclusive devices, and/or methods of making the same. A substrate supports a transparent conductive coating (TCC) based layer, and first and second organic layers disposed thereon. A reflective conductive layer is supported by the organic layers. An out-coupling layer stack (OCLS) interposed between the organic layers and a viewer of the device includes a hybrid organic-inorganic polymer matrix having scatterers dispersed throughout in a manner such that each scatterer is located in the far field of its nearest neighbor. The scatterers are dispersed to have a high Zeta potential, and promote Mie-like scattering of light passing through the OCLS. Mie-like scattering caused by the OCLS may help to frustrate the wave-guiding modes in the glass, e.g., by breaking down the in-phase coherence.
    • 某些示例实施例涉及包含有机发光二极管(OLED)的装置,和/或制造其的方法。 基板支撑基于透明导电涂层(TCC)的层,以及设置在其上的第一和第二有机层。 反射导电层由有机层支撑。 介于有机层和装置的观察者之间的外耦合层堆叠(OCLS)包括具有散射体的混合有机 - 无机聚合物基质,其中散射体以使得每个散射体位于其最邻近的远场中的方式分散。 散射体分散具有高的Zeta电位,并且促进通过OCLS的光的三重散射散射。 由OCLS引起的三重散射可能有助于阻止玻璃中的波导模式,例如通过分解同相相干性。
    • 7. 发明授权
    • Debonding and transfer techniques for hetero-epitaxially grown graphene, and products including the same
    • 用于异质外延生长石墨烯的脱粘和转移技术,以及包括其的产物
    • US08591680B2
    • 2013-11-26
    • US13546022
    • 2012-07-11
    • Vijayen S. Veerasamy
    • Vijayen S. Veerasamy
    • C23C28/00
    • C30B33/00B82Y30/00B82Y40/00C01B32/188C01B32/194C25F5/00C30B29/02
    • Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C2H2, CH4, or the like). The graphene thin films of certain example embodiments may be doped or undoped. In certain example embodiments, graphene thin films, once formed, may be lifted off of their carrier substrates and transferred to receiving substrates, e.g., for inclusion in an intermediate or final product. Graphene grown, lifted, and transferred in this way may exhibit low sheet resistances (e.g., less than 150 ohms/square and lower when doped) and high transmission values (e.g., at least in the visible and infrared spectra).
    • 本发明的某些示例性实施方案涉及石墨烯作为透明导电涂层(TCC)的用途。 在某些示例性实施例中,在烃类气体(例如,C 2 H 2,CH 4等)上在异质外延(例如在催化剂薄膜上)大面积生长的石墨烯薄膜。 某些示例性实施例的石墨烯薄膜可以是掺杂的或未掺杂的。 在某些示例性实施例中,一旦形成的石墨烯薄膜可以从它们的载体基底上剥离并转移到接收基底,例如包含在中间或最终产品中。 以这种方式生长,提升和转​​移的石墨烯可能表现出低的薄层电阻(例如,当掺杂时小于150欧姆/平方和较低)和高透射率值(例如,至少在可见光和红外光谱中)。
    • 10. 发明授权
    • Debonding and transfer techniques for hetero-epitaxially grown graphene, and products including the same
    • 用于异质外延生长石墨烯的脱粘和转移技术,以及包括其的产物
    • US08236118B2
    • 2012-08-07
    • US12461347
    • 2009-08-07
    • Vijayen S. Veerasamy
    • Vijayen S. Veerasamy
    • C23C28/00
    • C30B33/00B82Y30/00B82Y40/00C01B32/188C01B32/194C25F5/00C30B29/02
    • Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C2H2, CH4, or the like). The graphene thin films of certain example embodiments may be doped or undoped. In certain example embodiments, graphene thin films, once formed, may be lifted off of their carrier substrates and transferred to receiving substrates, e.g., for inclusion in an intermediate or final product. Graphene grown, lifted, and transferred in this way may exhibit low sheet resistances (e.g., less than 150 ohms/square and lower when doped) and high transmission values (e.g., at least in the visible and infrared spectra).
    • 本发明的某些示例性实施方案涉及石墨烯作为透明导电涂层(TCC)的用途。 在某些示例性实施例中,在烃类气体(例如,C 2 H 2,CH 4等)上在异质外延(例如在催化剂薄膜上)大面积生长的石墨烯薄膜。 某些示例性实施例的石墨烯薄膜可以是掺杂的或未掺杂的。 在某些示例性实施例中,一旦形成的石墨烯薄膜可以从它们的载体基底上剥离并转移到接收基底,例如包含在中间或最终产品中。 以这种方式生长,提升和转​​移的石墨烯可能表现出低的薄层电阻(例如,当掺杂时小于150欧姆/平方和较低)和高透射率值(例如,至少在可见光和红外光谱中)。