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公开(公告)号:US06723569B1
公开(公告)日:2004-04-20
申请号:US09831132
申请日:2001-08-13
IPC分类号: G01N110
CPC分类号: B01L3/0255 , G01N2035/1034 , G01N2035/1037 , Y10T436/2575
摘要: A dropping tool for transferring drops of a liquid onto a substrate wherein a surface of the dropping tool for contact with the liquid has a first region which exhibits an affinity to the liquid to be transferred directly surrounded by a second region which exhibits a lower affinity to the liquid to be transferred than the first region; the topography of the first and second regions and the relative affinities of the first and second regions for the liquid to be transferred being selected such that when the dropping tool is dipped into and then removed from a source of the liquid to be transferred, the liquid adheres to the first region without substantially any adherence of the liquid to the second region. A dropping tool for transferring drops of liquid onto a substrate, the dropping tool comprising a tip, at least one surface tapered towards the tip, and a capillary channel which leads from a position of the tapered surface remote from the tip to a reservoir located within the dropping tool. A method for transferring drops of liquid carried on a dropping tool onto a substrate to form an ordered array of drops thereon wherein the drop of liquid is transferred without contacting the dropping tool with the substrate either directly or indirectly via the drop of liquid.
摘要翻译: 一种用于将液体滴转移到基底上的滴液工具,其中用于与液体接触的滴液工具的表面具有第一区域,该第一区域对被转移的液体具有亲和性,该第一区域直接由对第 待转移的液体比第一区域; 选择第一和第二区域的形状以及用于待转移的液体的第一和第二区域的相对亲和力,使得当将滴液工具浸入并且然后从待转移的液体的源中移除时,液体 粘附到第一区域而基本上没有液体粘附到第二区域。 一种用于将液滴滴落到基底上的滴液工具,该滴液工具包括一个尖端,至少一个朝尖端渐缩的表面,以及一个毛细通道,该锥形通道从锥形表面的远离尖端的位置引导到位于 滴滴工具。 一种用于将滴加工具上携带的液体液滴转移到基底上以在其上形成有序的液滴阵列的方法,其中一滴液体被转移,而不会直接或间接地通过滴液接触滴液工具与基底。
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公开(公告)号:US20100003528A1
公开(公告)日:2010-01-07
申请号:US12439148
申请日:2007-08-24
CPC分类号: C08L83/04 , B82Y30/00 , C08G77/24 , C08G77/70 , C08K2201/011 , Y10T428/25 , Y10T428/269 , Y10T428/31612
摘要: The present invention is directed to compositions (“Nanomaterial Polymer Compositions”) comprising a silicone polymer and a nanomaterial, including but not limited to, a single or multi-walled nanotube, a nanowire, a nanodot, a quantum dot, a nanorod, a nanocrystal, a nanotetrapod, a nanotripod, a nanobipod, a nanoparticle, a nanosaw, a nanospring, a nanoribbon, a branched nanomaterial, or any combination thereof. The Nanomaterial Polymer Compositions are useful for optical and sensing devices including but not limited to noise suppression, passive Q-switching, mode-locking, waveform shaping, optical switching, optical signal regeneration, phase conjugation or filter devices, dispersion compensation, wavelength conversion, a soliton stabilization, microcavity applications, interferometers; optical, magneto-optical or electro-optical modulation; and biochemical sensors and photodetectors. The Nanomaterial Polymer Compositions are also useful in soft lithography processes.
摘要翻译: 本发明涉及包含硅氧烷聚合物和纳米材料的组合物(“纳米材料聚合物组合物”),纳米材料包括但不限于单壁或多壁纳米管,纳米线,纳米点,量子点,纳米棒, 纳米晶体,纳米四极杆,纳摩耳,纳摩耳,纳米颗粒,纳米线,纳米螺旋,纳米棒,支链纳米材料或其任何组合。 纳米材料聚合物组合物可用于光学和感测装置,包括但不限于噪声抑制,无源Q开关,锁模,波形整形,光开关,光信号再生,相位共轭或滤波器件,色散补偿,波长转换, 孤子稳定,微腔应用,干涉仪; 光学,磁光或电光调制; 和生化传感器和光电探测器。 纳米材料聚合物组合物也可用于软光刻工艺。
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公开(公告)号:US20100002324A1
公开(公告)日:2010-01-07
申请号:US12439152
申请日:2007-08-24
CPC分类号: C09J11/04 , B82Y20/00 , B82Y30/00 , C08J5/005 , G02B2207/101
摘要: The present invention provides compositions (“Optical Nanomaterial Compositions”) comprising one or more nano-materials and an optical coupling gel or an optical adhesive. The invention also provides methods for using the Optical Nanomaterial Compositions as an index-matching gel, an optical adhesive or an optical film, all of which are suitable for optical and sensing de-vices applications, including but not limited to noise suppression, passive Q-switching, mode-locking, waveform shaping, optical switching, optical signal regeneration, phase conjugation, in filter devices, dispersion compensation, wavelength conversion, soliton stabilization, microcavity applications, in interferometers (such as the Gires-Tournois interferometer), optical, magneto-optical or electro-optical modulation, biochemical sensors and photodetectors.
摘要翻译: 本发明提供了包含一种或多种纳米材料和光学偶联凝胶或光学粘合剂的组合物(“光学纳米材料组合物”)。 本发明还提供了使用光学纳米材料组合物作为折射率匹配凝胶,光学粘合剂或光学膜的方法,所有这些都适用于光学和感测去除应用,包括但不限于噪声抑制,被动Q 干涉仪(如Gires-Tournois干涉仪)中的开关,锁模,波形整形,光开关,光信号再生,滤波器件中的相位共轭,色散补偿,波长转换,孤子稳定,微腔应用, 磁光或电光调制,生化传感器和光电探测器。
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公开(公告)号:US08323789B2
公开(公告)日:2012-12-04
申请号:US12439148
申请日:2007-08-24
CPC分类号: C08L83/04 , B82Y30/00 , C08G77/24 , C08G77/70 , C08K2201/011 , Y10T428/25 , Y10T428/269 , Y10T428/31612
摘要: The present invention is directed to compositions (“Nanomaterial Polymer Compositions”) comprising a silicone polymer and a nanomaterial, including but not limited to, a single or multi-walled nanotube, a nanowire, a nanodot, a quantum dot, a nanorod, a nanocrystal, a nanotetrapod, a nanotripod, a nanobipod, a nanoparticle, a nanosaw, a nanospring, a nanoribbon, a branched nanomaterial, or any combination thereof. The Nanomaterial Polymer Compositions are useful for optical and sensing devices including but not limited to noise suppression, passive Q-switching, mode-locking, waveform shaping, optical switching, optical signal regeneration, phase conjugation or filter devices, dispersion compensation, wavelength conversion, a soliton stabilization, microcavity applications, interferometers; optical, magneto-optical or electro-optical modulation; and biochemical sensors and photodetectors. The Nanomaterial Polymer Compositions are also useful in soft lithography processes.
摘要翻译: 本发明涉及包含硅氧烷聚合物和纳米材料的组合物(纳米材料聚合物组合物),包括但不限于单壁或多壁纳米管,纳米线,纳米点,量子点,纳米棒,纳米晶体, 纳米四极杆,纳摩耳头,纳摩头,纳米颗粒,纳米线,纳米旋转,纳米棒,支链纳米材料或其任何组合。 纳米材料聚合物组合物可用于光学和感测装置,包括但不限于噪声抑制,无源Q开关,锁模,波形整形,光开关,光信号再生,相位共轭或滤波器件,色散补偿,波长转换, 孤子稳定,微腔应用,干涉仪; 光学,磁光或电光调制; 和生化传感器和光电探测器。 纳米材料聚合物组合物也可用于软光刻工艺。
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公开(公告)号:US20110163280A1
公开(公告)日:2011-07-07
申请号:US13050380
申请日:2011-03-17
CPC分类号: C09J11/04 , B82Y20/00 , B82Y30/00 , C08J5/005 , G02B2207/101
摘要: The present invention provides compositions (“Optical Nanomaterial Compositions”) comprising one or more nanomaterials and an optical coupling gel or an optical adhesive. The invention also provides methods for using the Optical Nanomaterial Compositions as an index-matching gel, an optical adhesive or an optical film, all of which are suitable for optical and sensing devices applications, including but not limited to noise suppression, passive Q-switching, mode-locking, waveform shaping, optical switching, optical signal regeneration, phase conjugation, in filter devices, dispersion compensation, wavelength conversion, soliton stabilization, microcavity applications, in interferometers (such as the Gires-Tournois interferometer), optical, magneto-optical or electro-optical modulation, biochemical sensors and photodetectors.
摘要翻译: 本发明提供了包含一种或多种纳米材料和光学偶联凝胶或光学粘合剂的组合物(“光学纳米材料组合物”)。 本发明还提供了使用光学纳米材料组合物作为折射率匹配凝胶,光学粘合剂或光学膜的方法,所有这些都适用于光学和感测装置应用,包括但不限于噪声抑制,无源Q开关 干涉仪(如Gires-Tournois干涉仪)中的模式锁定,波形整形,光学切换,光信号再生,相位共轭,滤波器件,色散补偿,波长转换,孤子稳定,微腔应用,光学, 光学或电光调制,生化传感器和光电探测器。
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公开(公告)号:US20090078561A1
公开(公告)日:2009-03-26
申请号:US12179699
申请日:2008-07-25
申请人: Kenneth Boh Khin Teo , Torquil Wells , William Ireland Milne , Mark Mann , Mohamed Mochtar El Gomati
发明人: Kenneth Boh Khin Teo , Torquil Wells , William Ireland Milne , Mark Mann , Mohamed Mochtar El Gomati
CPC分类号: G01Q70/12 , H01J1/3044 , H01J9/025 , H01J37/073 , H01J37/20 , H01J37/32009 , H01J2201/30415 , H01J2201/3043 , H01J2237/06316 , H01J2237/2001 , H01J2237/28
摘要: This invention relates to heating apparatus and methods with particular applications for growing a nanofibre, and to nanotips fabricated by such methods and apparatus. Embodiments of the invention can be implemented to provide nanotips for electron gun sources and scanning probe microscopy. A nanotip fabrication apparatus includes a heater for heating an object in the presence of an electric field. The heater comprises: a substantially planar electrically conductive heating element configured to define at least one aperture; a support to mount the heated object such that it protrudes through said aperture; and at least one electrical connection to said heating element. In use, the heating element can be biased by said at least one electrical connection such that the electric field in the vicinity of the object is substantially perpendicular to the plane of the element.
摘要翻译: 本发明涉及具有用于生长纳米纤维的特殊应用的加热装置和方法,以及通过这些方法和装置制造的纳米技术。 本发明的实施例可以实现为电子枪源和扫描探针显微镜提供纳米尖端。 纳米尖端制造装置包括用于在存在电场的情况下加热物体的加热器。 加热器包括:基本上平面的导电加热元件,其被配置为限定至少一个孔; 用于安装加热物体使得其穿过所述孔突出的支撑件; 以及与所述加热元件的至少一个电连接。 在使用中,加热元件可以被所述至少一个电连接偏压,使得物体附近的电场基本上垂直于元件的平面。
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7.发明授权Process for the localized growth of nanotubes and process for fabricating a self-aligned cathode using the nanotube growth process 有权纳米管局部生长工艺及使用纳米管生长工艺制造自对准阴极的工艺公开(公告)号:US07214553B2
公开(公告)日:2007-05-08
申请号:US10490300
申请日:2002-09-20
IPC分类号: H01L21/00
CPC分类号: B82Y30/00 , B82Y40/00 , C01B32/162 , H01J9/025
摘要: The invention relates to a process for the controlled growth of nanotubes or nanofibers on a substrate, characterized in that it furthermore comprises the production, on the substrate (11), of a bi-layer structure composed of a layer of catalyst material (71), for catalyzing the growth of nanotubes or nanofibers, and a layer of associated material, said associated material being such that it forms a noncatalytic alloy with the catalyst material at high temperature.The invention also relates to a process for fabricating a field-emission cathode using the above nanotube or nanofiber fabrication process.These processes allow very precise positioning of the catalyst spots from which the nanotubes and nanofibers can be grown and allow the fabrication of cathodes for which the nanotubes or nanofibers are self-aligned with the aperture in the extraction grid.Applications: electron tubes, nanolithography.
摘要翻译: 本发明涉及一种在衬底上控制纳米管或纳米纤维生长的方法,其特征在于,还包括在基底(11)上生产由催化剂材料层(71)构成的双层结构, ,用于催化纳米管或纳米纤维的生长以及相关材料层,所述相关材料使得其在高温下与催化剂材料形成非催化合金。 本发明还涉及使用上述纳米管或纳米纤维制造工艺制造场致发射阴极的方法。 这些方法允许催化剂斑点的非常精确的定位,从该纳米管和纳米纤维可以生长催化剂斑点,并允许制造其中纳米管或纳米纤维与提取网格中的孔自对准的阴极。 应用:电子管,纳米光刻。
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