Method for forming a nano-textured substrate
    3.
    发明授权
    Method for forming a nano-textured substrate 有权
    形成纳米纹理基底的方法

    公开(公告)号:US08999857B2

    公开(公告)日:2015-04-07

    申请号:US13078782

    申请日:2011-04-01

    摘要: A method for forming a nano-textured surface on a substrate is disclosed. An illustrative embodiment of the present invention comprises dispensing of a nanoparticle ink of nanoparticles and solvent onto the surface of a substrate, distributing the ink to form substantially uniform, liquid nascent layer of the ink, and enabling the solvent to evaporate from the nanoparticle ink thereby inducing the nanoparticles to assemble into an texture layer. Methods in accordance with the present invention enable rapid formation of large-area substrates having a nano-textured surface. Embodiments of the present invention are well suited for texturing substrates using high-speed, large scale, roll-to-roll coating equipment, such as that used in office product, film coating, and flexible packaging applications. Further, embodiments of the present invention are well suited for use with rigid or flexible substrates.

    摘要翻译: 公开了一种在衬底上形成纳米纹理表面的方法。 本发明的说明性实施例包括将纳米颗粒和溶剂的纳米颗粒油墨分配到基材的表面上,分配油墨以形成基本均匀的液体新鲜的油墨层,并使溶剂能够从纳米颗粒油墨中蒸发 诱导纳米颗粒组装成纹理层。 根据本发明的方法能够快速形成具有纳米纹理表面的大面积基板。 本发明的实施例非常适用于使用高速,大规模卷对卷涂布设备(例如办公用品,薄膜涂布和软包装应用中使用的)的纹理化基板。 此外,本发明的实施例非常适合用于刚性或柔性基底。

    Method for Forming a Nano-textured Substrate
    4.
    发明申请
    Method for Forming a Nano-textured Substrate 有权
    形成纳米纹理基质的方法

    公开(公告)号:US20110244692A1

    公开(公告)日:2011-10-06

    申请号:US13078782

    申请日:2011-04-01

    IPC分类号: H01L21/30 B82Y40/00

    摘要: A method for forming a nano-textured surface on a substrate is disclosed. An illustrative embodiment of the present invention comprises dispensing of a nanoparticle ink of nanoparticles and solvent onto the surface of a substrate, distributing the ink to form substantially uniform, liquid nascent layer of the ink, and enabling the solvent to evaporate from the nanoparticle ink thereby inducing the nanoparticles to assemble into an texture layer. Methods in accordance with the present invention enable rapid formation of large-area substrates having a nano-textured surface. Embodiments of the present invention are well suited for texturing substrates using high-speed, large scale, roll-to-roll coating equipment, such as that used in office product, film coating, and flexible packaging applications. Further, embodiments of the present invention are well suited for use with rigid or flexible substrates.

    摘要翻译: 公开了一种在衬底上形成纳米纹理表面的方法。 本发明的说明性实施例包括将纳米颗粒和溶剂的纳米颗粒油墨分配到基材的表面上,分配油墨以形成基本均匀的液体新鲜的油墨层,并使溶剂能够从纳米颗粒油墨中蒸发 诱导纳米颗粒组装成纹理层。 根据本发明的方法能够快速形成具有纳米纹理表面的大面积基板。 本发明的实施例非常适用于使用高速,大规模卷对卷涂布设备(例如办公用品,薄膜涂布和软包装应用中使用的)的纹理化基板。 此外,本发明的实施例非常适合用于刚性或柔性基底。

    CONDUCTIVE FIBROUS MATERIALS
    5.
    发明申请
    CONDUCTIVE FIBROUS MATERIALS 有权
    导电纤维材料

    公开(公告)号:US20110200873A1

    公开(公告)日:2011-08-18

    申请号:US12916053

    申请日:2010-10-29

    CPC分类号: B32B15/16

    摘要: As consistent with various embodiments, an electronic device includes a fibrous material having a conductive coating thereon. The conductive coating includes conductive nanoparticles coupled to fibers in the fibrous material. The structure is implemented in connection with a variety of devices, such as a capacitive device or a battery. Other embodiments are directed to forming conductive fibrous sheets, in dispersing a nanomaterial in a solution and applying the solution to a fibrous sheet, such as commercial paper, to form a conductive sheet.

    摘要翻译: 与各种实施例一致,电子设备包括其上具有导电涂层的纤维材料。 导电涂层包括与纤维材料中的纤维偶联的导电纳米颗粒。 该结构与诸如电容性装置或电池的各种装置相结合实现。 其它实施方案涉及形成导电纤维片,将纳米材料分散在溶液中,并将溶液施加到纤维片如商业纸上以形成导电片。

    Conductive fibrous materials
    6.
    发明授权
    Conductive fibrous materials 有权
    导电纤维材料

    公开(公告)号:US09138965B2

    公开(公告)日:2015-09-22

    申请号:US12916053

    申请日:2010-10-29

    CPC分类号: B32B15/16

    摘要: As consistent with various embodiments, an electronic device includes a fibrous material having a conductive coating thereon. The conductive coating includes conductive nanoparticles coupled to fibers in the fibrous material. The structure is implemented in connection with a variety of devices, such as a capacitive device or a battery. Other embodiments are directed to forming conductive fibrous sheets, in dispersing a nanomaterial in a solution and applying the solution to a fibrous sheet, such as commercial paper, to form a conductive sheet.

    摘要翻译: 与各种实施例一致,电子设备包括其上具有导电涂层的纤维材料。 导电涂层包括与纤维材料中的纤维偶联的导电纳米颗粒。 该结构与诸如电容性装置或电池的各种装置相结合实现。 其它实施方案涉及形成导电纤维片,将纳米材料分散在溶液中,并将溶液施加到纤维片如商业纸上以形成导电片。

    Electrodes with electrospun fibers
    7.
    发明授权
    Electrodes with electrospun fibers 有权
    电纺纤维电极

    公开(公告)号:US08940194B2

    公开(公告)日:2015-01-27

    申请号:US13214570

    申请日:2011-08-22

    摘要: In accordance with various example embodiments, an apparatus includes two or more circuit nodes and a conductive material that is located between and configured to electrically couple the circuit nodes. The conductive material includes a network of elongated portions of at least one electrospun Cu-based nanostructure. Each elongated portion has an aspect ratio of at least 50,000 and a length that is greater than 100 microns, and at least one fused crossing point that joins with a fused crossing point of another of the elongated portions. The network of elongated portions is distributed and aligned in the conductive material to set a conductance level and a transparency level along the network, along at least one direction.

    摘要翻译: 根据各种示例性实施例,一种装置包括两个或多个电路节点和位于电耦合电路节点之间并被配置为电耦合电路节点的导电材料。 导电材料包括至少一个电纺丝基于Cu的纳米结构的细长部分的网络。 每个细长部分具有至少50,000的长宽比和大于100微米的长度,以及与另一个细长部分的融合交叉点连接的至少一个融合的交叉点。 细长部分的网络在导电材料中分布和对准,以沿着网络沿着至少一个方向设置电导水平和透明度水平。

    THREE DIMENSIONAL ELECTRODES USEFUL FOR MICROBIAL FUEL CELLS
    8.
    发明申请
    THREE DIMENSIONAL ELECTRODES USEFUL FOR MICROBIAL FUEL CELLS 审中-公开
    用于微型燃料电池的三维电极

    公开(公告)号:US20110236769A1

    公开(公告)日:2011-09-29

    申请号:US13070158

    申请日:2011-03-23

    IPC分类号: H01M8/16

    摘要: An electrode for use in a microbial fuel cell comprising a porous substrate and nanostructure coating, for example, a carbon nanotube coating, is provided. The electrode can be configured as either a cathode or an anode, or both. Also provided is a microbial fuel cell comprising an anode compartment comprising an anode and a cathode compartment comprising a cathode and a metallic catalyst, wherein at least one of the anode and cathode comprises the porous substrate conformally coated with the nanostructure coating, and the cathode and anode are electrically connected. Methods for generating an electrical current with marine sediment or wastewater with the microbial fuel cell are also described.

    摘要翻译: 提供了一种用于微生物燃料电池的电极,其包括多孔基底和纳米结构涂层,例如碳纳米管涂层。 电极可以被配置为阴极或阳极,或两者。 还提供了一种微生物燃料电池,其包括阳极室,阳极室包括阳极和包括阴极和金属催化剂的阴极室,其中阳极和阴极中的至少一个包括由纳米结构涂层共形涂覆的多孔基材,阴极和 阳极电连接。 还描述了用微生物燃料电池产生具有海洋沉积物或废水的电流的方法。

    ELECTRODES WITH ELECTROSPUN FIBERS
    9.
    发明申请
    ELECTRODES WITH ELECTROSPUN FIBERS 有权
    电极纤维电极

    公开(公告)号:US20120061124A1

    公开(公告)日:2012-03-15

    申请号:US13214570

    申请日:2011-08-22

    摘要: In accordance with various example embodiments, an apparatus includes two or more circuit nodes and a conductive material that is located between and configured to electrically couple the circuit nodes. The conductive material includes a network of elongated portions of at least one electrospun Cu-based nanostructure. Each elongated portion has an aspect ratio of at least 50,000 and a length that is greater than 100 microns, and at least one fused crossing point that joins with a fused crossing point of another of the elongated portions. The network of elongated portions is distributed and aligned in the conductive material to set a conductance level and a transparency level along the network, along at least one direction.

    摘要翻译: 根据各种示例性实施例,一种装置包括两个或多个电路节点和位于电耦合电路节点之间并被配置为电耦合电路节点的导电材料。 导电材料包括至少一个电纺丝基于Cu的纳米结构的细长部分的网络。 每个细长部分具有至少50,000的长宽比和大于100微米的长度,以及与另一个细长部分的融合交叉点连接的至少一个融合的交叉点。 细长部分的网络在导电材料中分布和对准,以沿着网络沿着至少一个方向设置电导水平和透明度水平。