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    • 1. 发明授权
    • Fabrication of nanoporous membrane
    • 纳米孔膜的制备
    • US09353461B2
    • 2016-05-31
    • US14116403
    • 2012-05-10
    • Pitfee JaoYong-Kyu YoonGloria Jung-a Kim
    • Pitfee JaoYong-Kyu YoonGloria Jung-a Kim
    • B29C65/74B01D67/00D01D5/00B01D71/44D04H1/728D01F9/08
    • D01D5/0076B01D67/0032B01D71/44B01D2323/39B29C65/7451B29C65/7461D01D5/0069D01F9/08D04H1/728Y10T156/1062
    • Various methods and systems are provided for fabrication of nanoporous membranes. In one embodiment, among others, a system includes electrode pairs including substantially parallel electrodes, a controllable power supply to control the electrical potential of each of the electrode pairs, and a syringe to eject an electrically charged solution from a needle to form a nanofiber. The orientation of the nanofiber in a nanofiber layer is determined by the electrical potentials of the electrode pairs. In another embodiment, a method includes providing a nanoporous membrane including nanofiber layers between a transferor and a mainmold of a stamp-through-mold (STM) where adjacent nanofiber layers are approximately aligned in different directions. A patterned membrane is sheared from the nanoporous membrane using the transferor and the mainmold of the STM and transferred to a substrate.
    • 提供了用于制造纳米多孔膜的各种方法和系统。 在一个实施例中,系统包括电极对,其包括基本上平行的电极,用于控制每个电极对的电位的可控电源,以及用于从针头喷射带电溶液以形成纳米纤维的注射器。 纳米纤维层中纳米纤维的取向取决于电极对的电位。 在另一个实施方案中,一种方法包括提供一纳米多孔膜,该纳米多孔膜包括在相邻的纳米纤维层在不同方向上大致对齐的转印模和模印模(STM)的主模之间的纳米纤维层。 使用转移器和STM的主模,从纳米多孔膜剪切图案化的膜并转移到基底。
    • 2. 发明申请
    • FABRICATION OF NANOPOROUS MEMBRANE
    • 纳米膜的制备
    • US20140124131A1
    • 2014-05-08
    • US14116403
    • 2012-05-10
    • Pitfee JaoYong-Kyu YoonGloria Jung-a Kim
    • Pitfee JaoYong-Kyu YoonGloria Jung-a Kim
    • D01D5/00
    • D01D5/0076B01D67/0032B01D71/44B01D2323/39B29C65/7451B29C65/7461D01D5/0069D01F9/08D04H1/728Y10T156/1062
    • Various methods and systems are provided for fabrication of nanoporous membranes. In one embodiment, among others, a system includes electrode pairs including substantially parallel electrodes, a controllable power supply to control the electrical potential of each of the electrode pairs, and a syringe to eject an electrically charged solution from a needle to form a nanofiber. The orientation of the nanofiber in a nanofiber layer is determined by the electrical potentials of the electrode pairs. In another embodiment, a method includes providing a nanoporous membrane including nanofiber layers between a transferor and a mainmold of a stamp-through-mold (STM) where adjacent nanofiber layers are approximately aligned in different directions. A patterned membrane is sheared from the nanoporous membrane using the transferor and the mainmold of the STM and transferred to a substrate.
    • 提供了用于制造纳米多孔膜的各种方法和系统。 在一个实施例中,系统包括电极对,其包括基本上平行的电极,用于控制每个电极对的电位的可控电源,以及用于从针头喷射带电溶液以形成纳米纤维的注射器。 纳米纤维层中纳米纤维的取向取决于电极对的电位。 在另一个实施方案中,一种方法包括提供一纳米多孔膜,该纳米多孔膜包括在相邻的纳米纤维层在不同方向上大致对齐的转印模和模印模(STM)的主模之间的纳米纤维层。 使用转移器和STM的主模具从纳米多孔膜剪切图案化的膜并转移到基底。
    • 4. 发明申请
    • FOLDED PATCH ANTENNA PLATFORM
    • 折叠式天线平台
    • US20140139385A1
    • 2014-05-22
    • US14126950
    • 2012-07-06
    • Yong-Kyu YoonGloria Jung-a KimXiaoyu Cheng
    • Yong-Kyu YoonGloria Jung-a KimXiaoyu Cheng
    • H01Q9/04
    • H01Q9/0442H01Q1/24H01Q1/273H01Q1/38H01Q5/364H01Q9/0414
    • Various systems and methods are provided for folded patch antennas. In one embodiment, among others, a folded patch antenna includes a patch disposed on an outer side of a flexible substrate and a ground plane disposed on an inner side of the flexible substrate opposite the patch. The flexible substrate is folded to form an enclosed cavity defined by the inner side of the flexible substrate. The ground plane may provide electromagnetic interference (EMI) shielding of the cavity. In another embodiment, among others, a folded patch antenna platform includes a flexible substrate, a folded patch antenna, and a transceiver mounted on the flexible substrate. The folded patch antenna includes a patch communicatively coupled to the transceiver and a ground plane, which are disposed on opposite sides of the flexible substrate.
    • 为折叠贴片天线提供了各种系统和方法。 在一个实施例中,折叠贴片天线包括布置在柔性基板的外侧上的贴片和布置在与贴片相对的柔性基板的内侧上的接地平面。 柔性基底被折叠以形成由柔性基底的内侧限定的封闭空腔。 接地层可以提供空腔的电磁干扰(EMI)屏蔽。 在另一个实施例中,折叠贴片天线平台包括柔性基板,折叠贴片天线和安装在柔性基板上的收发器。 折叠的贴片天线包括通信地耦合到收发器的接头和设置在柔性基板的相对侧上的接地平面。