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1.发明申请
公开(公告)号:WO2016046642A2
公开(公告)日:2016-03-31
申请号:PCT/IB2015/002060
申请日:2015-09-24
Inventor: VIDAL, Enrique, Vilanova , ALFADHEL, Ahmed , IVANOV, Iurii , KOSEL, Jurgen
CPC classification number: C25D1/00 , C25D1/006 , C25D11/005 , C25D11/045 , C25D17/00 , C25D17/06 , C25D21/02 , C25D21/12
Abstract: Systems and methods for largescale nanotemplate and nanowire fabrication are provided. The system can include a sample holder and one or more chemical containers fluidly connected to the sample holder. The sample holder can be configured to contain a solution and to releasably hold a substrate material within the solution. In other aspects, the system can include a robotic arm including a head configured to releasably hold a substrate material. The methods can include initiating a treatment step by moving a chemical solution from a chemical container to the sample holder to submerge the substrate material for a period of time. The methods can include moving the robotic arm to position the substrate in a chemical container. The treatment steps can be stopped by removing the chemical solution from the sample holder or by moving the robotic arm to remove the substrate from the chemical container. The treatment steps can include degreasing, polishing, rinsing, anodization, and deposition.
Abstract translation: 提供了大尺寸纳米模板和纳米线制造的系统和方法。 该系统可以包括样品架和流体连接到样品架的一个或多个化学容器。 样品保持器可被配置为容纳溶液并且将基底材料可释放地保持在溶液内。 在其他方面,该系统可以包括机器人臂,其包括构造成可释放地保持衬底材料的头部。 该方法可以包括通过将化学溶液从化学容器移动到样品架来启动处理步骤,以将衬底材料淹没一段时间。 该方法可以包括移动机器臂以将基板定位在化学容器中。 可以通过从样品架移除化学溶液或通过移动机器人臂从化学容器移除基质来停止处理步骤。 处理步骤可以包括脱脂,抛光,漂洗,阳极氧化和沉积。
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公开(公告)号:WO2016067197A1
公开(公告)日:2016-05-06
申请号:PCT/IB2015/058274
申请日:2015-10-27
Inventor: ALFADHEL, Ahmed , LI, Bodong , KOSEL, Jürgen
Abstract: A magnetic nanocomposite device is described herein for a wide range of sensing applications. The device utilizes the permanent magnetic behavior of the nanowires to allow operation without the application of an additional magnetic field to magnetize the nanowires, which simplifies miniaturization and integration into microsystems. In5 addition, the nanocomposite benefits from the high elasticity and easy patterning of the polymer-based material, leading to a corrosion-resistant, flexible material that can be used to realize extreme sensitivity. In combination with magnetic sensor elements patterned underneath the nanocomposite, the nanocomposite device realizes highly sensitive and power efficient flexible artificial cilia sensors for flow measurement or tactile sensing.
Abstract translation: 本文描述了用于各种感测应用的磁性纳米复合器件。 该器件利用纳米线的永久磁性行为允许操作而不施加附加的磁场来磁化纳米线,这简化了微型系统的集成和微型化。 此外,纳米复合材料受益于聚合物基材料的高弹性和易于图案化,导致可用于实现极高灵敏度的耐腐蚀的柔性材料。 结合在纳米复合材料下图案化的磁性传感器元件,纳米复合器件实现了高灵敏度和功率效率的柔性人造纤维传感器,用于流量测量或触觉感测。
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公开(公告)号:EP3213098A1
公开(公告)日:2017-09-06
申请号:EP15801245.0
申请日:2015-10-27
Inventor: ALFADHEL, Ahmed , LI, Bodong , KOSEL, Jürgen
Abstract: A magnetic nanocomposite device is described herein for a wide range of sensing applications. The device utilizes the permanent magnetic behavior of the nanowires to allow operation without the application of an additional magnetic field to magnetize the nanowires, which simplifies miniaturization and integration into microsystems. In5 addition, the nanocomposite benefits from the high elasticity and easy patterning of the polymer-based material, leading to a corrosion-resistant, flexible material that can be used to realize extreme sensitivity. In combination with magnetic sensor elements patterned underneath the nanocomposite, the nanocomposite device realizes highly sensitive and power efficient flexible artificial cilia sensors for flow measurement or tactile sensing.
Abstract translation: 本文描述了用于广泛范围的感测应用的磁性纳米复合材料装置。 该器件利用纳米线的永磁行为,允许在不施加额外磁场的情况下对纳米线进行磁化,从而简化微型化和集成到微系统中。 此外,这种纳米复合材料可从聚合物基材料的高弹性和容易图案化中获益,从而形成耐腐蚀,柔韧的材料,可用于实现极高的灵敏度。 结合纳米复合材料下面图案化的磁性传感器元件,纳米复合材料设备实现了高灵敏度和高功效的灵活人造纤毛传感器,用于流量测量或触觉感测。
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