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    • 4. 发明授权
    • Flexible nanostructure electronic devices
    • 柔性纳米结构电子器件
    • US07956525B2
    • 2011-06-07
    • US10846072
    • 2004-05-14
    • N. Peter ArmitageKeith BradleyJean-Christophe P. GabrielGeorge Grüner
    • N. Peter ArmitageKeith BradleyJean-Christophe P. GabrielGeorge Grüner
    • H01J1/02
    • H01B1/24B82Y10/00B82Y15/00H01L51/0048H01L51/0097H01L51/0595
    • A flexible electronic device is made up of nanostructures. Specifically, the device includes a flexible substrate, a film of nanostructures in contact with the flexible substrate, a first conducting element in contact with the film of nanostructures, and a second conducting element in contact with the film of nanostructures. The nanostructures may comprise nanotubes, such as carbon nanotubes disposed along the flexible substrate, such as an organic or polymer substrate. The first and second conductive elements may serve as electrical terminals, or as a source and drain. In addition, the electronic device may include a gate electrode that is in proximity to the nanotubes and not in electrical contact with the nanotubes. In this configuration, the device can operate as a transistor or a FET. The device may also be operated in a resistive mode as a chemical sensor (e.g., for sensing NH3).
    • 灵活的电子设备由纳米结构组成。 具体地,该装置包括柔性基板,与柔性基板接触的纳米结构薄膜,与纳米结构薄膜接触的第一导电元件和与纳米结构薄膜接触的第二导电元件。 纳米结构可以包括纳米管,例如沿着柔性基底设置的碳纳米管,例如有机或聚合物基底。 第一和第二导电元件可以用作电端子,或用作源极和漏极。 此外,电子器件可以包括位于纳米管附近并且不与纳米管电接触的栅电极。 在这种配置中,器件可以作为晶体管或FET工作。 该装置还可以作为化学传感器(例如,用于感测NH 3)以电阻模式操作。
    • 5. 发明申请
    • BREATH CONDENSATE SAMPLER AND DETECTOR AND BREATH/BREATH CONDENSATE SAMPLER AND DETECTOR
    • 呼吸冷凝器和探测器和呼吸器/呼吸器冷凝器和检测器
    • US20100268106A1
    • 2010-10-21
    • US12761290
    • 2010-04-15
    • Bradley N. JohnsonKanchan JoshiYing-Lan ChangRay Radtkey
    • Bradley N. JohnsonKanchan JoshiYing-Lan ChangRay Radtkey
    • A61B5/097
    • A61B5/097A61B5/0803A61B5/082A61B5/14539B82Y30/00G01N33/497G01N2001/2282
    • The present invention provides a direct sampler and detector for analytes found in exhaled breath condensate. Analytes in the breath condensate are detected instantaneously as they condense prior to reaching the sensor surface or condense directly on the sensor surface. Because the analysis or assay is performed immediately after patient exhalation, analyte stability is significantly improved providing accurate, reliable, consistent, and clinically applicable results. In certain embodiments, combined breath condensate/breath samplers and detectors are provided, enabling multiplexed analysis of condensed and vapor-phase analytes provided in a single sampling session. Breath is collected and directed to one or more subsystems. Within each subsystem, the breath portion is either condensed or prevented from condensing. The technique also allows real-time continuous monitoring, thus allowing immediate feedback to both medical professionals and additional hardware such as ventilators, anesthesia machines, drug infusion systems and cardiac pacemakers.
    • 本发明提供了一种用于呼出凝结水中分析物的直接取样器和检测器。 呼吸冷凝液中的分析物在到达传感器表面之前凝结,或者直接凝结在传感器表面上瞬间被检测到。 因为在患者呼气后立即进行分析或测定,所以分析物的稳定性得到显着改善,可提供准确,可靠,一致和临床适用的结果。 在某些实施方案中,提供组合的呼吸冷凝物/呼吸取样器和检测器,使得能够对在单个采样会话中提供的冷凝和气相分析物进行复用分析。 呼吸被收集并引导到一个或多个子系统。 在每个子系统内,呼吸部分被冷凝或防止冷凝。 该技术还允许实时连续监测,从而允许立即反馈医疗专业人员和附加硬件,如呼吸机,麻醉机,药物输注系统和心脏起搏器。
    • 10. 发明申请
    • Operation of a hydrogen storage and supply system
    • 氢气储存和供应系统的运行
    • US20040040316A1
    • 2004-03-04
    • US10302154
    • 2002-11-22
    • Nanomix, Inc.
    • Keith BradleyJeff Wyatt
    • F17C011/00F17C009/02
    • F17C11/005Y02E60/321Y02P90/45
    • This invention provides for an apparatus and a method for operation of a cryogenic hydrogen storage system that contains a porous medium configured to adsorb hydrogen. The hydrogen storage and supply system includes a hydrogen source apparatus, a cryosorptive storage apparatus, and a fuel recycle loop. Methods and devices that allow for an energy efficient release of hydrogen from the cryosorptive apparatus are described. At the outset of a fuel release, the cryosorptive hydrogen storage apparatus contains cold, pressurized hydrogen. Release of hydrogen from the storage apparatus is a process that consumes heat, thereby drawing down both the temperature and pressure. Heat can be provided to the cryosorptive storage apparatus by various direct approaches, or through the influx of warm, recycled hydrogen. The hydrogen storage and release apparatus contains a recycle loop, which warms a portion of the effluxing hydrogen, and returns it to the storage apparatus, thereby maintaining pressure and temperature conditions that support continued hydrogen desorption from the storage medium.
    • 本发明提供了一种用于操作低温氢存储系统的装置和方法,所述低温储氢系统包含构造成吸附氢气的多孔介质。 氢存储和供给系统包括氢源装置,冷冻存储装置和燃料循环回路。 描述了允许从冷冻吸收装置中高效释放氢的方法和装置。 在燃料释放开始时,低温吸氢储氢装置含有冷的加压氢气。 从储存装置释放氢气是消耗热量,从而降低温度和压力的过程。 可以通过各种直接方法或通过热的循环氢气的流入将热量提供给冷冻存储设备。 氢储存和释放装置包含一个循环回路,其加热一部分流出的氢气,并将其返回到存储装置,从而保持支持从存储介质继续氢解吸的压力和温度条件。