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91.发明申请METHOD OF ELECTRODE PRINTING ON ONE OR MORE SURFACES OF A DIELECTRIC SUBSTRATE 审中-公开一种电介质基板的一个或多个表面上的电极印刷方法
公开(公告)号:WO2017153899A1
公开(公告)日:2017-09-14
申请号:PCT/IB2017/051304
申请日:2017-03-06
Inventor: NEOPHYTOU, Marios , KIRKUS, Mindaugas , LACOSTE, Deanna A.
Abstract: Described herein is a method for printing electrodes surfaces of a dielectric substrate. Provided herein is a new method of depositing electrically conductive electrodes of any shape on flexible and/or rigid dielectric substrates/surfaces and devices so produced. In various embodiments, the devices can generate ionic wind, for example to remove dust or other debris or contaminants or to remove ice or humidity from a surface.
Abstract translation: 本文描述了一种用于印刷电介质基板的电极表面的方法。 本文提供了一种在柔性和/或刚性电介质基底/表面和如此生产的器件上沉积任何形状的导电电极的新方法。 在各种实施例中,装置可产生离子风,例如以去除灰尘或其他碎屑或污染物或从表面除去冰或湿气。
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公开(公告)号:WO2017153898A1
公开(公告)日:2017-09-14
申请号:PCT/IB2017/051303
申请日:2017-03-06
Inventor: NEOPHYTOU, Marios , LACOSTE, Deanna A. , KIRKUS, Mindaugas
Abstract: Described herein are plasma generation devices and methods of use of the devices. The devices can be used for the cleaning of various surfaces and/or for inhibiting or preventing the accumulation of particulates, such as dust, or moisture on various surfaces. The devices can be used to remove dust and other particulate contaminants from solar panels and windows, or to avoid or minimize condensation on various surfaces. In an embodiment a plasma generation device is provided. The plasma generation device can comprise: a pair of electrodes (1,2) positioned in association with a surface of a dielectric substrate (3). The pair of electrodes (1,2) can comprise a first electrode (1) and a second electrode (2). The first electrode and second electrode can be of different sizes, one of the electrodes being smaller than the other of the electrodes. The first electrode and second electrode can be separated by a distance and electrically connected to a voltage source (4,5).
Abstract translation: 这里描述的是等离子体产生装置和使用这些装置的方法。 这些装置可以用于清洁各种表面和/或用于抑制或防止各种表面上的微粒如灰尘或水分的积聚。 该设备可用于去除太阳能电池板和窗户上的灰尘和其他颗粒污染物,或避免或尽量减少各种表面上的冷凝。 在一个实施例中,提供一种等离子体生成装置 等离子体产生装置可以包括:与介电基片(3)的表面相关联的一对电极(1,2)。 该对电极(1,2)可以包括第一电极(1)和第二电极(2)。 第一电极和第二电极可以具有不同的尺寸,其中一个电极比另一个电极小。 第一电极和第二电极可以分开一段距离并电连接到电压源(4,5)。
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93.发明申请
公开(公告)号:WO2017149499A1
公开(公告)日:2017-09-08
申请号:PCT/IB2017/051235
申请日:2017-03-02
Inventor: TAI, Yanlong , LUBINEAU, Gilles
Abstract: Noncontact sensing components are provided herein, in an aspect, they can be for an electronic device. The noncontact sensing components can contain a semiconductor layer having a r-GO portion and a CNT portion. The noncontact sensing components can be used to detect the presence or movement of a humidity source in the vicinity of the noncontact sensing component. The resistance/humidity response of the component can be based on the combined contribution of carbon nanotube (positive resistance variation) and reduced-graphene oxide (negative resistance variation) behaviors.
Abstract translation: 这里提供非接触感测组件,在一个方面,它们可以用于电子设备。 非接触感测组件可以包含具有r-GO部分和CNT部分的半导体层。 非接触感测组件可以用来检测非接触感测组件附近的湿度源的存在或移动。 组件的电阻/湿度响应可以基于碳纳米管(正电阻变化)和还原氧化石墨烯(负电阻变化)行为的组合贡献。
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94.发明申请ESTIMATION OF GLUCOSE RATE OF APPEARANCE FROM CGS AND SUBCUTANEOUS INSULIN DELIVERY IN TYPE 1 DIABETES 审中-公开1型糖尿病患者CGS和皮下注射胰岛素释放的葡萄糖率评估
公开(公告)号:WO2017145119A1
公开(公告)日:2017-08-31
申请号:PCT/IB2017/051100
申请日:2017-02-24
Inventor: LALEG, Taous Meriem , AL-MATOUQ, Ali Ahmed
CPC classification number: A61B5/4839 , A61B5/14532 , A61B5/7278 , A61M5/00 , A61M5/14244 , A61M2205/3303 , A61M2205/3523 , A61M2205/50 , A61M2205/52 , A61M2230/005 , A61M2230/201 , G06F19/00 , G06F19/3468 , G16H50/50
Abstract: Method and System for providing estimates of Glucose Rate of Appearance from the intestine (GRA) using continuous glucose sensor measurements (CGS) taken from the subcutaneous of a diabetes patient and the amount of insulin administered to the patient.
Abstract translation: 用于使用从糖尿病患者的皮下采集的连续葡萄糖传感器测量值(CGS)和施用给患者的胰岛素的量来提供来自肠的葡萄糖出现率(GRA)的估计的方法和系统
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公开(公告)号:WO2017122179A1
公开(公告)日:2017-07-20
申请号:PCT/IB2017/050203
申请日:2017-01-13
Inventor: FRANCIS, Lijo , GHAFFOUR, Noreddine , ALSAADI, Ahmad S. , ABRAHAM, Raju
CPC classification number: B01D61/364 , C02F1/447 , C02F2103/08 , C02F2201/009 , C02F2303/10
Abstract: Systems and methods using membrane distillation are provided for desalinating water, for example for the production of potable water, to address freshwater requirements. In an aspect the systems and methods do not require applying an external heat source, or the energy cost of the heating source, to heat the feed stream to the membrane. In an aspect, the sensible heat present in surface seawater is used for the heat energy for the warm stream fed to the membrane, and deep seawater is used as the cold/coolant feed to the membrane to provide the needed temperature gradient or differential across the membrane.
Abstract translation: 提供使用膜蒸馏的系统和方法用于脱盐水,例如用于生产饮用水,以满足淡水需求。 在一个方面,该系统和方法不需要施加外部热源或加热源的能量成本来加热进入膜的进料流。 在一个方面,表面海水中存在的显热用于供给膜的暖流的热能,并且深海水用作向膜的冷/冷却剂进料以提供所需的温度梯度或差 膜
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Patent Agency Ranking
公开(公告)号:WO2017122132A1
公开(公告)日:2017-07-20
申请号:PCT/IB2017/050130
申请日:2017-01-11
Inventor: FARIBORZI, Hossein
Abstract: Seamless, covert communications using a communications system integrated or incorporated within an article of clothing is described. In one embodiment, the communications system is integrated or incorporated into a shoe insole and includes a haptic feedback mechanism, a communications module, a flexible pressure sensor, and a battery. The communications module includes a wireless communications module for wireless communications, a wired interface for wired communications, a microcontroller, and a battery charge controller. The flexible pressure sensor can be actuated by an individual's toe, for example, and communication between two communications nodes can be achieved using coded signals sent by individuals using a combination of long and short presses on the pressure sensor. In response to the presses, wireless communications modules can transmit and receive coded signals based on the presses.
Abstract translation: 描述了使用集成或并入服装物品内的通信系统的无缝,隐蔽通信。 在一个实施例中,通信系统被集成或并入鞋内底并且包括触觉反馈机构,通信模块,柔性压力传感器和电池。 通信模块包括用于无线通信的无线通信模块,用于有线通信的有线接口,微控制器和电池充电控制器。 灵活的压力传感器例如可以由个人的脚趾驱动,并且可以使用由压力传感器上的长按压和短按压组合的个人发送的编码信号来实现两个通信节点之间的通信。 响应这些印刷机,无线通信模块可以发送和接收基于印刷机的编码信号。
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公开(公告)号:WO2017118921A1
公开(公告)日:2017-07-13
申请号:PCT/IB2017/050013
申请日:2017-01-03
Inventor: KOSEL, Jurgen , KAVALDZHIEV, Mincho Nikolaev , PEREZ, Jose Efrain
IPC: B82Y15/00
CPC classification number: B81C1/00111 , A61B5/685 , A61B10/0045 , A61B10/02 , A61M37/0015 , A61M2037/0023 , A61M2037/003 , A61M2037/0053 , B81B2201/055
Abstract: Nanoneedles and nanoneedle arrays and methods of making nanoneedles are provided. The methods can include multilayer fabrication methods using a negative photoresist and/or a positive photoresist. The nanoneedle arrays include one or more nanoneedles attached to a surface of a substrate. The nanoneedle can have both a proximal opening and a distal opening, and an inner passageway connecting the proximal opening and the distal opening. The nanoneedle can have a functional coating. The nanoneedle can include iron, cobalt, nickel, gold, and oxides and alloys thereof. The nanoneedle arrays can be used for the administration and/or the extraction of agents from individual cells. In one or more aspects, the nanoneedles can be magnetic nanoneedles. An oscillating magnetic field applied to a magnetic nanoneedle can induce one or both of heating and vibration of the magnetic nanoneedle. The heating and/or vibration can cause a magnetic nanoneedle to penetrate the wall of a cell.
Abstract translation: 提供了纳米针和纳米针阵列以及制造纳米针的方法。 该方法可以包括使用负性光刻胶和/或正性光刻胶的多层制造方法。 纳米针阵列包括附着到基底表面的一个或多个纳米针。 纳米针可以具有近侧开口和远侧开口以及连接近侧开口和远侧开口的内部通路。 纳米针可以具有功能涂层。 纳米针可以包括铁,钴,镍,金及其氧化物和合金。 纳米针阵列可以用于从单个细胞中给药和/或提取药剂。 在一个或多个方面,纳米针可以是磁性纳米针。 施加到磁性纳米针的振荡磁场可以引起磁性纳米针的加热和振动中的一个或两个。 加热和/或振动会导致磁性纳米针穿透细胞壁。
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公开(公告)号:WO2017109734A1
公开(公告)日:2017-06-29
申请号:PCT/IB2016/057897
申请日:2016-12-21
Inventor: TIETZE, Max Lutz , LUSSEM, Bjorn , LIU, Shiyi
CPC classification number: H01L51/057 , H01L51/0562 , H01L51/0583 , H01L51/105
Abstract: Various examples are provided for organic tunnel field effect transistors (OTFET), and methods thereof. In one example, an OTFET includes a first intrinsic layer (i-layer) of organic semiconductor material disposed over a gate insulating layer; source (or drain) contact stacks disposed on portions of the first i-layer; a second i-layer of organic semiconductor material disposed on the first i-layer surrounding the source (or drain) contact stacks; an n-doped organic semiconductor layer disposed on the second i-layer; and a drain (or source) contact layer disposed on the n-doped organic semiconductor layer. The source (or drain) contact stacks can include a p-doped injection layer, a source (or drain) contact layer, and a contact insulating layer. In another example, a method includes disposing a first i-layer over a gate insulating layer; forming source or drain contact stacks; and disposing a second i-layer, an n-doped organic semiconductor layer, and a drain or source contact.
Abstract translation: 提供了用于有机隧道场效应晶体管(OTFET)的各种示例及其方法。 在一个示例中,OTFET包括设置在栅极绝缘层上的有机半导体材料的第一本征层(i-层) 布置在第一i层的部分上的源极(或漏极)接触堆叠; 设置在围绕所述源极(或漏极)接触堆叠的所述第一i层上的第二i有机半导体材料层; 设置在第二i层上的n掺杂有机半导体层; 以及设置在n掺杂有机半导体层上的漏极(或源极)接触层。 源极(或漏极)接触堆叠可以包括p掺杂注入层,源极(或漏极)接触层和接触绝缘层。 在另一个示例中,一种方法包括:在栅极绝缘层上设置第一i层; 形成源极或漏极接触堆叠; 以及设置第二i层,n掺杂有机半导体层和漏极或源极接触。
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公开(公告)号:WO2017089963A1
公开(公告)日:2017-06-01
申请号:PCT/IB2016/057046
申请日:2016-11-22
Inventor: BUTTNER, Ulrich , MASHRAEI, Yousof , AGAMBAYEV, Sumeyra , SALAMA, Khaled N.
IPC: B01L3/00
CPC classification number: B01L3/502707 , B01L2300/0816 , B01L2400/0487 , B01L2400/049 , B29C67/00
Abstract: Microfluidics has advanced in terms of designs and structures, however, fabrication methods are either time consuming or expensive to produce, in terms of the facilities and equipment needed. A fast and economically viable method is provided to allow, for example, research groups to have access to microfluidic fabrication. Unlike most fabrication methods, a method is provided to fabricate a microfluidic device in one step. In an embodiment, a resolution of 50 micrometers was achieved by using maskless high-resolution digital light projection (MDLP). Bonding and channel fabrication of complex or simple structures can be rapidly incorporated to fabricate the microfluidic devices.
Abstract translation: 微流体在设计和结构方面已经取得了进步,然而,就所需的设备和设备而言,制造方法要么耗费时间要么需要昂贵的成本。 提供了一种快速且经济可行的方法,例如,允许研究组获得微流体制造。 与大多数制造方法不同,提供了一步法制造微流体装置的方法。 在一个实施例中,通过使用无掩模高分辨率数字光投影(MDLP)实现了50微米的分辨率。 快速结合复杂或简单结构的键合和通道制造以制造微流体装置。
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公开(公告)号:WO2017089888A1
公开(公告)日:2017-06-01
申请号:PCT/IB2016/001764
申请日:2016-11-28
Inventor: MERZABAN, Jasmeen , ABUELELA, Ayman, F. , MOHAMMAD, Amal, Jehad
IPC: G01N33/50
CPC classification number: G01N33/5029 , G01N33/5073
Abstract: Systems and methods are provided for simultaneously assaying cell adhesion or cell rolling for multiple cell specimens. One embodiment provides a system for assaying adhesion or cell rolling of multiple cell specimens that includes a confocal imaging system containing a parallel plate flow chamber, a pump in fluid communication with the parallel plate flow chamber via a flow chamber inlet line and a cell suspension in fluid communication with the parallel plate flow chamber via a flow chamber outlet line. The system also includes a laser scanning system in electronic communication with the confocal imaging system, and a computer in communication with the confocal imaging system and laser scanning system. In certain embodiments, the laser scanning system emits multiple electromagnetic wavelengths simultaneously it cause multiple fluorescent labels having different excitation wavelength maximums to fluoresce. The system can simultaneously capture real-time fluorescence images from at least seven cell specimens in the parallel plate flow chamber.
Abstract translation: 系统和方法被提供用于同时测定多细胞样本的细胞粘附或细胞滚动。 一个实施例提供了用于测定多个细胞样本的粘附或细胞滚动的系统,其包括共焦成像系统,该共焦成像系统包含平行板流动室,通过流动室入口线与平行板流动室流体连通的泵和 通过流动室出口管线与平行板流动室流体连通。 该系统还包括与共焦成像系统进行电子通信的激光扫描系统,以及与共焦成像系统和激光扫描系统通信的计算机。 在某些实施例中,激光扫描系统同时发射多个电磁波长,它使得具有不同激发波长最大值的多个荧光标记发荧光。 该系统可以同时从平行板流动室中的至少7个细胞样本捕获实时荧光图像。
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