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    • 1. 发明申请
    • SENSORS EMPLOYING SINGLE-WALLED CARBON NANOTUBES
    • 采用单壁碳纳米管的传感器
    • WO2007013872A2
    • 2007-02-01
    • PCT/US2005026074
    • 2005-07-22
    • UNIV ILLINOISSTRANO MICHAEL SBAIK SEUNGHYUNBARONE PAUL
    • STRANO MICHAEL SBAIK SEUNGHYUNBARONE PAUL
    • C12M3/00
    • G01N33/66B82Y15/00B82Y30/00G01N33/551
    • Sensing compositions, sensing element, sensing systems and sensing devices for the detection and/or quantitation of one or more analytes, Compositions comprising carbon nanotubes in which the carbon nanotubes retain their ability to luminesce and in which that luminescence is rendered selectively sensitive to the presence of an analyte. Compositions comprising individually dispersed carbon nanotubes, which are electronically isolated from other carbon nanotubes, yet which are associated with chemical selective species, such as polymers, particularly biological polymers, for example proteins, which can interact selectively with, or more specifically selectivity bind to, an analyte of interest. Chemically selective species bind, preferably non-covalently, to the carbon nanotube and function to provide for analyte selectivity. Chemically selective species include polymers to which one or more chemically selective groups are covalently attached. Chemically selective polymers include, for example, proteins and polysaccharides.
    • 用于检测和/或定量一种或多种分析物的感测组合物,感测元件,感测系统和感测装置包含碳纳米管的组合物,其中碳纳米管保持其发光能力,并且其中该发光对存在的选择性敏感 的分析物。 包含单独分散的碳纳米管的组合物,其与其它碳纳米管电子分离,但与化学选择性物质相关联,例如聚合物,特别是生物聚合物,例如蛋白质,其可以选择性地或与之具体地选择性结合, 感兴趣的分析物。 化学选择性物质优选非共价结合到碳纳米管上,并提供分析物选择性。 化学选择性物质包括共价连接有一个或多个化学选择性基团的聚合物。 化学选择性聚合物包括例如蛋白质和多糖。
    • 3. 发明申请
    • SYSTEMS AND METHODS FOR HANDLING AND/OR ISOLATING NANOTUBES AND OTHER NANOSTRUCTURES
    • 用于处理和/或分离纳米管和其他纳米结构的系统和方法
    • WO2011022072A3
    • 2011-09-09
    • PCT/US2010002299
    • 2010-08-20
    • MASSACHUSETTS INST TECHNOLOGYSTRANO MICHAEL SKIM WOO-JAEBARONE PAUL W
    • STRANO MICHAEL SKIM WOO-JAEBARONE PAUL W
    • B82B3/00
    • B82Y30/00B82Y40/00C01B32/168C01B32/17C01B32/174
    • Systems and methods related to handling and/or isolating nanotubes and other nanostructures are generally described. In some embodiments, a polymer can be exposed to a collection of agglomerated nanostructures to produce individuated nanostructures. The polymer can comprise one or more pendant groups capable of participating in a pi-pi interaction with at least a portion of the agglomerated nanostructures to produce individuated nanostructures. Individuated nanostructures can be isolated from nanostructures that remain agglomerated. In some cases, individuated nanostructures can be freeze dried to provide, for example, a plurality of nanostructures in solid form. The systems and methods described herein may be so effective in maintaining separation between individuated nanostructures that pluralities of dried nanostructures can be re- suspended in a fluid after they are dried, in some cases with relatively low forces applied during re-suspension.
    • 通常描述与处理和/或分离纳米管和其他纳米结构有关的系统和方法。 在一些实施方案中,聚合物可暴露于聚集的纳米结构集合以产生个体化的纳米结构。 聚合物可以包含一个或多个能够与至少一部分团聚纳米结构参与π-π相互作用以产生个体化纳米结构的侧基。 个体化的纳米结构可以从纳米结构中分离出来,从而保持凝聚。 在一些情况下,可将个体纳米结构冷冻干燥以提供例如多个固体形式的纳米结构。 本文所述的系统和方法可以如此有效地维持个别纳米结构之间的分离,使得多个干燥的纳米结构在干燥后可以重新悬浮在流体中,在一些情况下在再悬浮期间施加相对低的力。
    • 6. 发明申请
    • DEPOSITION OF NANOWIRES AND OTHER NANOSCALE OBJECTS ON SURFACES
    • 纳米级和其他纳米材料对表面的沉积
    • WO2010047772A3
    • 2010-09-23
    • PCT/US2009005695
    • 2009-10-20
    • MASSACHUSETTS INST TECHNOLOGYSTRANO MICHAEL SSHARMA RICHA
    • STRANO MICHAEL SSHARMA RICHA
    • B81B3/00
    • B81B3/0089B82Y10/00H01L51/0003H01L51/0012H01L51/0049Y10T428/24488Y10T428/24802Y10T428/24917
    • The present invention generally relates to the deposition of nanowires and other nanoparticles on surfaces. According to one aspect of the invention, a fluid containing nanoscale objects, such as nanowires, is deposited on a surface having one or more relatively hydrophilic regions and one or more relatively hydrophobic regions. If the fluid is hydrophilic, it will preferentially be located in the relatively hydrophilic regions (or vice versa if the fluid is relatively hydrophobic). The fluid is then allowed to evaporate to cause the nanoscale objects to deposit. For instance, the rate of evaporation may be controlled so as to allow the nanoscale objects to substantially deposit at the centers of the regions and/or at a rate that causes the nanoscale objects to become substantially aligned. In some cases, the regions may be relatively small, e.g., having a minimum surface dimension of less than about 3000 nm. In one set of embodiments, one or more cylindrical droplets may be formed on the surface. For example, the surface may contain a relatively hydrophilic region, having a large surface aspect ratio, surrounded by a relatively hydrophobic region, such that an aqueous fluid deposited on the relatively hydrophilic region forms a cylindrical droplet. Other aspects of the present invention are directed to methods for creating and using such articles, methods for promoting such articles, or the like.
    • 本发明一般涉及纳米线和其它纳米颗粒在表面上的沉积。 根据本发明的一个方面,含有纳米尺度物体(如纳米线)的流体沉积在具有一个或多个相对亲水区域和一个或多个相对疏水区域的表面上。 如果流体是亲水性的,它将优先位于相对亲水区域(反之亦然,如果流体相对疏水)。 然后允许流体蒸发以使纳米级物体沉积。 例如,可以控制蒸发速率,以便允许纳米级物体基本上沉积在区域的中心和/或以导致纳米尺度物体基本对准的速率。 在一些情况下,区域可以相对较小,例如具有小于约3000nm的最小表面尺寸。 在一组实施例中,可以在表面上形成一个或多个圆柱形液滴。 例如,表面可以包含相对亲水的区域,其具有大的表面纵横比,被相对疏水的区域包围,使得沉积在相对亲水区域上的水性流体形成圆柱形液滴。 本发明的其它方面涉及用于制造和使用这些物品的方法,用于促进这些制品的方法等。
    • 8. 发明申请
    • NANOSCALE THERMOELECTRIC WAVE GENERATORS
    • 纳米级热电波发生器
    • WO2011050288A3
    • 2011-09-29
    • PCT/US2010053798
    • 2010-10-22
    • MASSACHUSETTS INST TECHNOLOGYSTRANO MICHAEL SCHOI WONJOONABRAHAMSON JOEL THAN JAE-HEE
    • STRANO MICHAEL SCHOI WONJOONABRAHAMSON JOEL THAN JAE-HEE
    • H01L37/00B82B3/00
    • H01L35/00B82Y10/00
    • In one aspect, the present invention provides nanosized systems for generating electrical energy based on the use of a chemically reactive composition to generate a thermoelectric wave. For example, the system can include at least one nanostructure (e.g., a carbon nanotube) extending along an axial direction between a proximal end and a distal end. A chemically reactive composition is dispersed along at least a portion of the nanostructure, e.g., along its axial direction, so as to provide thermal coupling with the nanostructure (that is, there is a thermal path, e.g., via contact or otherwise, between the chemical composition and the nanostructure). The chemical composition can undergo an exothermic chemical reaction to generate heat. The system can further include an ignition mechanism adapted to activate the chemical composition so as to generate a thermal wave that propagates along the axial direction of the nanostructure, where the thermal wave is accompanied by an electrical energy wave propagating along the axial direction.
    • 一方面,本发明提供基于使用化学反应性组合物产生热电波来产生电能的纳米尺寸系统。 例如,该系统可以包括沿近端和远端之间的轴向方向延伸的至少一个纳米结构(例如,碳纳米管)。 化学反应性组合物沿纳米结构的至少一部分(例如沿着其轴向方向)分散,以提供与纳米结构的热耦合(即,存在热路径,例如通过接触或其他方式,在 化学组成和纳米结构)。 化学组成可以经历放热化学反应以产生热量。 该系统还可以包括适于激活化学成分的点火机构,以便产生沿着纳米结构的轴向方向传播的热波,其中热波伴随着沿轴向传播的电能波。