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    • 3. 发明授权
    • Self-encoding fiber optic sensor
    • 自编光纤传感器
    • US07115884B1
    • 2006-10-03
    • US08944850
    • 1997-10-06
    • David R. WaltTodd A. Dickinson
    • David R. WaltTodd A. Dickinson
    • G01N21/64
    • G01N21/6452B01J2219/00317B01J2219/00524B01J2219/00648B01J2219/00659C40B60/14G01N21/6428G01N21/7703G01N33/0031G01N33/54313G01N33/54373G01N33/54393G01N2021/6484G01N2021/7786
    • Self-encoding microspheres having distinct characteristic optical response signatures to specific target analytes may be mixed together while the ability is retained to identify the sensor type and location of each sensor in a random dispersion of large numbers of such sensors in a sensor array using an optically interrogatable encoding scheme, resulting in a microsphere-based analytic chemistry system. Individual microsphere sensors are disposed in microwells at a distal end of a fiber bundle and are optically coupled to discrete fibers or groups of fibers within the bundle to form an optical fiber bundle sensor. The identities of the individual sensors in the array are self-encoded by exposing the array to a reference analyte while illuminating the array with excitation light energy. A single sensor array may carry thousands of discrete sensing elements whose combined signal provides for substantial improvements in sensor detection limits, response times and signal-to-noise ratios.
    • 具有针对特定目标分析物的特征性光学响应特征的自编码微球可以混合在一起,同时保留能力以在传感器阵列中使用光学方法识别大量这种传感器的随机色散中的每个传感器的传感器类型和位置 可询问的编码方案,导致基于微球的分析化学系统。 单个微球传感器设置在纤维束的远端处的微孔中,并且光学耦合到束内的离散纤维或纤维组,以形成光纤束传感器。 阵列中各个传感器的身份通过将阵列暴露于参考分析物而进行自编​​码,同时用激发光能照射阵列。 单个传感器阵列可以携带数千个离散感测元件,其组合信号提供传感器检测限,响应时间和信噪比方面的实质性改进。
    • 7. 发明授权
    • Self-encoding sensor with microspheres
    • 具有微球的自编码传感器
    • US07348181B2
    • 2008-03-25
    • US09287573
    • 1999-04-06
    • David R. WaltTodd A. Dickinson
    • David R. WaltTodd A. Dickinson
    • G01N21/76
    • C12Q1/682B01J2219/00317B01J2219/0045B01J2219/00466B01J2219/005B01J2219/00524B01J2219/00585B01J2219/00648B01J2219/00659C12Q1/6834C40B60/14G01N21/6428G01N21/6452G01N21/7703G01N33/0031G01N33/54313G01N2201/0846Y10T436/101666Y10T436/109163
    • A microsphere-based analytic chemistry system is disclosed in which self-encoding microspheres having distinct characteristic optical response signatures to specific target analytes may be mixed together while the ability is retained to identify the sensor type and location of each sensor in a random dispersion of large numbers of such sensors in a sensor array using an optically interrogatable encoding scheme. An optical fiber bundle sensor is also disclosed in which individual microsphere sensors are disposed in microwells at a distal end of the fiber bundle and are optically coupled to discrete fibers or groups of fibers within the bundle. The identities of the individual sensors in the array are self-encoded by exposing the array to a reference analyte while illuminating the array with excitation light energy. A single sensor array may carry thousands of discrete sensing elements whose combined signal provides for substantial improvements in sensor detection limits, response times and signal-to-noise ratios.
    • 公开了一种基于微球的分析化学系统,其中具有针对特定目标分析物的不同特征光学响应特征的自编码微球可以混合在一起,同时保留能力以识别大尺度随机色散中的每个传感器的传感器类型和位置 使用光学可询问编码方案的传感器阵列中的这种传感器的数量。 还公开了一种光纤束传感器,其中单个微球传感器设置在纤维束的远端处的微孔中,并且光束耦合到束内的离散纤维或纤维组。 阵列中各个传感器的身份通过将阵列暴露于参考分析物而进行自编​​码,同时用激发光能照射阵列。 单个传感器阵列可携带数千个离散感测元件,其组合信号提供传感器检测限,响应时间和信噪比方面的实质性改进。