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    • 4. 发明申请
    • ORGANIC MATERIALS ABLE TO DETECT ANALYTES
    • 有机材料可以检测分析
    • US20100310424A1
    • 2010-12-09
    • US12795279
    • 2010-06-07
    • Aimee RoseTimothy M. SwagerZhengguo ZhuVladimir BulovicConor F. Madigan
    • Aimee RoseTimothy M. SwagerZhengguo ZhuVladimir BulovicConor F. Madigan
    • G01N21/66C08G65/38
    • G01N21/7703G01N33/0057H01S3/067H01S3/178H01S5/12H01S5/36H01S2301/02
    • The present invention generally relates to polymers with lasing characteristics that allow the polymers to be useful in detecting analytes. In one aspect, the polymer, upon an interaction with an analyte, may exhibit a change in a lasing characteristic that can be determined in some fashion. For example, interaction of an analyte with the polymer may affect the ability of the polymer to reach an excited state that allows stimulated emission of photons to occur, which may be determined, thereby determining the analyte. In another aspect, the polymer, upon interaction with an analyte, may exhibit a change in stimulated emission that is at least 10 times greater with respect to a change in the spontaneous emission of the polymer upon interaction with the analyte. The polymer may be a conjugated polymer in some cases. In one set of embodiments, the polymer includes one or more hydrocarbon side chains, which may be parallel to the polymer backbone in some instances. In another set of embodiments, the polymer may include one or more pendant aromatic rings. In yet another set of embodiments, the polymer may be substantially encapsulated in a hydrocarbon. In still another set of embodiments, the polymer may be substantially resistant to photobleaching. In certain aspects, the polymer may be useful in the detection of explosive agents, such as 2,4,6-trinitrotoluene (TNT) and 2,4-dinitrotoluene (DNT).
    • 本发明一般涉及具有允许聚合物用于检测分析物的激光特性的聚合物。 在一个方面,聚合物在与分析物相互作用时可以表现出可以以某种方式确定的激光特性的变化。 例如,分析物与聚合物的相互作用可能影响聚合物达到允许发生光子的受激发射的激发态的能力,这可以被确定,从而确定分析物。 在另一方面,聚合物在与分析物相互作用时可能表现出相对于与分析物相互作用时聚合物自发发射变化的至少10倍的受激发射的变化。 在某些情况下,聚合物可以是共轭聚合物。 在一组实施方案中,聚合物包括一个或多个烃侧链,其在一些情况下可以平行于聚合物主链。 在另一组实施方案中,聚合物可以包括一个或多个芳族环。 在又一组实施方案中,聚合物可以基本上包封在烃中。 在又一组实施方案中,聚合物可以基本上抵抗光漂白。 在某些方面,聚合物可用于检测爆炸剂,例如2,4,6-三硝基甲苯(TNT)和2,4-二硝基甲苯(DNT)。
    • 7. 发明授权
    • Rapid ink-charging of a dry ink discharge nozzle
    • 一个干油墨排放喷嘴的快速充墨
    • US08235487B2
    • 2012-08-07
    • US12652046
    • 2010-01-05
    • Conor F. MadiganEliyahu Vronsky
    • Conor F. MadiganEliyahu Vronsky
    • B41J29/38
    • B41J2/175B41J2/14H01L51/0005
    • The present teachings relate to methods and apparatus for depositing one or more materials (e.g., one or more films, such as one or more solids) on one or more substrates, which may form part of an OLED or other type(s) of display. In some embodiments, the disclosure relates to apparatus and methods for depositing ink on one or more substrates. The apparatus can include, for example, one or more chambers for receiving ink, and plural orifices configured in the one or more chambers which are adapted for ejecting droplets of the ink; a discharge nozzle comprising an array of micro-pores (e.g., configured in a rectangular array), with each micro-pore having an inlet port and an outlet port, and the discharge nozzle receiving plural quantities (e.g., droplets) of ink from the chamber(s) via the orifices at the inlet ports and dispensing the ink from the outlet ports. The droplets of ink can be received at unique, spaced-apart locations on the inlet ports of the discharge nozzle. In some embodiments, a single liquid ink-holding chamber, which includes plural orifices (e.g., three), receives ink in liquid form having a plurality of suspended particles, and droplets of the ink are ejected substantially simultaneously from the chamber to respective, spaced-apart locations on the discharge nozzle; and the discharge nozzle evaporates the carrier liquid and deposits the solid particles on one or more substrates.
    • 本教导涉及用于将一种或多种材料(例如,一种或多种膜,例如一种或多种固体)沉积在一个或多个基底上的方法和装置,其可以形成OLED或其它类型的显示器的一部分 。 在一些实施例中,本公开涉及用于在一个或多个基底上沉积墨的装置和方法。 该设备可以包括例如用于接收墨水的一个或多个腔室,以及配置在一个或多个适于喷射墨水滴的一个或多个腔室中的多个喷嘴; 包括微孔阵列(例如,以矩形阵列配置)的排放喷嘴,每个微孔具有入口和出口,并且排出喷嘴从其中接收多个(例如,液滴)的墨 通过入口处的孔口并从出口端口分配墨水。 墨滴可以在排放喷嘴的入口上的独特的间隔开的位置容纳。 在一些实施例中,包括多个孔(例如,三个)的单个液体储墨室接收具有多个悬浮颗粒的液体形式的油墨,并且油墨的液滴基本上同时地从室喷射到相应的间隔 放电喷嘴上的位置; 并且排出喷嘴蒸发载液并将固体颗粒沉积在一个或多个基底上。
    • 8. 发明授权
    • Organic materials able to detect analytes
    • 有机材料能够检测分析物
    • US07759127B2
    • 2010-07-20
    • US11005631
    • 2004-12-06
    • Aimee RoseTimothy M. SwagerZhengguo ZhuVladimir BulovicConor F. Madigan
    • Aimee RoseTimothy M. SwagerZhengguo ZhuVladimir BulovicConor F. Madigan
    • G01N33/00
    • G01N21/7703G01N33/0057H01S3/067H01S3/178H01S5/12H01S5/36H01S2301/02
    • The present invention generally relates to polymers with lasing characteristics that allow the polymers to be useful in detecting analytes. In one aspect, the polymer, upon an interaction with an analyte, may exhibit a change in a lasing characteristic that can be determined in some fashion. For example, interaction of an analyte with the polymer may affect the ability of the polymer to reach an excited state that allows stimulated emission of photons to occur, which may be determined, thereby determining the analyte. In another aspect, the polymer, upon interaction with an analyte, may exhibit a change in stimulated emission that is at least 10 times greater with respect to a change in the spontaneous emission of the polymer upon interaction with the analyte. The polymer may be a conjugated polymer in some cases. In one set of embodiments, the polymer includes one or more hydrocarbon side chains, which may be parallel to the polymer backbone in some instances. In another set of embodiments, the polymer may include one or more pendant aromatic rings. In yet another set of embodiments, the polymer may be substantially encapsulated in a hydrocarbon. In still another set of embodiments, the polymer may be substantially resistant to photobleaching. In certain aspects, the polymer may be useful in the detection of explosive agents, such as 2,4,6-trinitrotoluene (TNT) and 2,4-dinitrotoluene (DNT).
    • 本发明一般涉及具有允许聚合物用于检测分析物的激光特性的聚合物。 在一个方面,聚合物在与分析物相互作用时可以表现出可以以某种方式确定的激光特性的变化。 例如,分析物与聚合物的相互作用可能影响聚合物达到允许发生光子的受激发射的激发态的能力,这可以被确定,从而确定分析物。 在另一方面,聚合物在与分析物相互作用时可能表现出相对于与分析物相互作用时聚合物自发发射变化的至少10倍的受激发射的变化。 在某些情况下,聚合物可以是共轭聚合物。 在一组实施方案中,聚合物包括一个或多个烃侧链,其在一些情况下可以平行于聚合物主链。 在另一组实施方案中,聚合物可以包括一个或多个芳族环。 在又一组实施方案中,聚合物可以基本上包封在烃中。 在又一组实施方案中,聚合物可以基本上抵抗光漂白。 在某些方面,聚合物可用于检测爆炸剂,例如2,4,6-三硝基甲苯(TNT)和2,4-二硝基甲苯(DNT)。
    • 9. 发明申请
    • Rapid Ink-Charging Of A Dry Ink Discharge Nozzle
    • 干墨喷射喷嘴的快速充墨
    • US20100171780A1
    • 2010-07-08
    • US12652046
    • 2010-01-05
    • Conor F. MadiganEliyahu Vronsky
    • Conor F. MadiganEliyahu Vronsky
    • B41J29/38B41J2/14
    • B41J2/175B41J2/14H01L51/0005
    • The present teachings relate to methods and apparatus for depositing one or more materials (e.g., one or more films, such as one or more solids) on one or more substrates, which may form part of an OLED or other type(s) of display. In some embodiments, the disclosure relates to apparatus and methods for depositing ink on one or more substrates. The apparatus can include, for example, one or more chambers for receiving ink, and plural orifices configured in the one or more chambers which are adapted for ejecting droplets of the ink; a discharge nozzle comprising an array of micro-pores (e.g., configured in a rectangular array), with each micro-pore having an inlet port and an outlet port, and the discharge nozzle receiving plural quantities (e.g., droplets) of ink from the chamber(s) via the orifices at the inlet ports and dispensing the ink from the outlet ports. The droplets of ink can be received at unique, spaced-apart locations on the inlet ports of the discharge nozzle. In some embodiments, a single liquid ink-holding chamber, which includes plural orifices (e.g., three), receives ink in liquid form having a plurality of suspended particles, and droplets of the ink are ejected substantially simultaneously from the chamber to respective, spaced-apart locations on the discharge nozzle; and the discharge nozzle evaporates the carrier liquid and deposits the solid particles on one or more substrates.
    • 本教导涉及用于将一种或多种材料(例如,一种或多种膜,例如一种或多种固体)沉积在一个或多个基底上的方法和装置,其可以形成OLED或其它类型的显示器的一部分 。 在一些实施例中,本公开涉及用于在一个或多个基底上沉积墨的装置和方法。 该设备可以包括例如用于接收墨水的一个或多个腔室,以及配置在一个或多个适于喷射墨水滴的一个或多个腔室中的多个喷嘴; 包括微孔阵列(例如,以矩形阵列配置)的排放喷嘴,每个微孔具有入口和出口,并且排出喷嘴从其中接收多个(例如,液滴)的墨 通过入口处的孔口并从出口端口分配墨水。 墨滴可以在排放喷嘴的入口上的独特的间隔开的位置容纳。 在一些实施例中,包括多个孔(例如,三个)的单个液体储墨室接收具有多个悬浮颗粒的液体形式的油墨,并且油墨的液滴基本上同时地从室喷射到相应的间隔 放电喷嘴上的位置; 并且排出喷嘴蒸发载液并将固体颗粒沉积在一个或多个基底上。