会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • TEMPERATURE SENSOR AND BIOSENSOR USING THE SAME
    • 使用温度传感器和生物传感器
    • US20100272608A1
    • 2010-10-28
    • US12743827
    • 2008-11-17
    • Roel PentermanSteven Van LieropAlbert Hendrik Jan ImminkDirk Jan Broer
    • Roel PentermanSteven Van LieropAlbert Hendrik Jan ImminkDirk Jan Broer
    • G01N30/96G01K11/12G01N25/00
    • G01K11/125G01K11/00
    • Embodiments of the invention relates to a temperature sensor and an analytical device comprising the same. The temperature sensor comprises a carrier (11) with a detection surface (12) on which temperature indicating agents (14) are present and, optionally, at which target components can collect and optionally bind to specific capture elements. An incident light beam (L1) is transmitted into the carrier and evanescent wave excitation is induced at the detection surface (12). The amount of light in the reflected light beam (L2) or an optical, e.g. luminescence response is then detected by a light detector (31). In one example, evanescent light is affected (absorbed, scattered) by temperature indicating agents and optionally target components and/or label particles at the binding surface (12) and will therefore be missing in a frustrated total internal reflected light beam (L2). This can be used to determine the temperature of the detection area and optionally the amount of target components at the binding surface (12) from the amount of light in the reflected light beam (L2, L2a, L2b). A magnetic field generator (41) is optionally used to generate a magnetic field (B) at the binding surface (12) by which magnetic label particles (1) can be manipulated, for example attracted or repelled.
    • 本发明的实施例涉及一种温度传感器和包括该温度传感器的分析装置。 温度传感器包括具有检测表面(12)的载体(11),其上存在温度指示剂(14),并且可选地,目标组分可以收集并任选地结合到特定捕获元件。 入射光束(L1)被传输到载体中,并且在检测表面(12)处诱导ev逝波激发。 反射光束(L2)中的光量或光学器件的光量。 然后通过光检测器(31)检测发光响应。 在一个实例中,渐逝光受温度指示剂影响(吸收,散射),并且可选地在结合表面(12)处的靶组分和/或标记颗粒,因此将在沮丧的全内反射光束(L2)中丢失。 这可以用于根据反射光束(L2,L2a,L2b)中的光量来确定检测区域的温度和可选地在结合表面(12)处的目标成分的量。 可选地,磁场发生器(41)用于在绑定表面(12)处产生磁场(B),通过该磁场可以操纵磁性标签颗粒(1),例如吸引或排斥磁场。
    • 4. 发明申请
    • SENSOR CARTRIDGE
    • 传感器盒
    • US20100289483A1
    • 2010-11-18
    • US12669218
    • 2008-07-16
    • Albert Hendrik Jan ImminkFemke Karina De TheijeMenno Willem Jose PrinsWendy Uyen DittmerJeroen Hans Nieuwenhuis
    • Albert Hendrik Jan ImminkFemke Karina De TheijeMenno Willem Jose PrinsWendy Uyen DittmerJeroen Hans Nieuwenhuis
    • G01N27/74
    • G01R33/1269
    • The present invention provides a sensor cartridge (10) for distinctively determining at least two different target moieties in a fluid sample. The sensor cartridge (10) comprises a reaction chamber (1) and at least a first and second region (2, 3) distinct from each other. The first region (2) comprises magnetic or magnetizable objects (4a) labelled with a first type of probes for specifically binding a first type of target moieties and the second region (3) comprises magnetic or magnetizable objects (4b) labelled with a second type of probes for specifically binding a second type of target moieties, the magnetic or magnetizable objects (4a, 4b) in the first and second region (2, 3) being directly contactable by the sample fluid. The present invention also provides a method for the manufacturing of such sensor devices (10) and a method for determining the presence and/or amount of at least two different target moieties in a sample fluid using such sensor cartridge (10).
    • 本发明提供一种用于区别地确定流体样品中至少两个不同靶部分的传感器盒(10)。 传感器盒(10)包括反应室(1)和至少彼此不同的第一和第二区域(2,3)。 第一区域(2)包括用第一类型的探针标记的磁性或可磁化物体(4a),用于特异性地结合第一类型的靶部分,并且第二区域(3)包括用第二类型标记的磁性或可磁化物体(4b) 的用于特异性结合第二类型的靶部分的探针,第一和第二区域(2,3)中的磁性或可磁化物体(4a,4b)可由样品流体直接接触。 本发明还提供了用于制造这种传感器装置(10)的方法以及使用这种传感器盒(10)确定样品流体中至少两种不同靶部分的存在和/或量的方法。
    • 10. 发明申请
    • Spherical Aberration Detector
    • 球面异常检测器
    • US20080192600A1
    • 2008-08-14
    • US11915633
    • 2006-05-22
    • Bernardus Hendrikus Wilhelmus HendriksSjoerd StallingaCoen Theodorus Hubertus Fransiscus LiedenbaumStein KuiperAlbert Hendrik Jan ImminkTeunis Willem Tukker
    • Bernardus Hendrikus Wilhelmus HendriksSjoerd StallingaCoen Theodorus Hubertus Fransiscus LiedenbaumStein KuiperAlbert Hendrik Jan ImminkTeunis Willem Tukker
    • G11B5/58
    • G11B7/13927G11B7/0948G11B2007/0006
    • An optical scanning device (1) for scanning at least one information layer (2) of at least one optical record carrier (3). The device includes a radiation source (7) for providing at least a first radiation beam (4) comprising a first wavelength, an objective lens system (8) for converging the first radiation beam on a respective information layer (2), an information detector (23) for detecting at least a portion of the first radiation beam (22) reflected from the respective information layer, for determining information on said layer, and a spherical aberration detection system. The spherical aberration detection system includes an aberration detector (24) for detecting at least a portion of the reflected first radiation beam for determining spherical aberration of the first radiation beam, and a diffractive element (26) for diffracting at least a portion of the reflected first radiation beam towards the aberration detector (24), and for transmitting at least a portion of the reflected first radiation beam towards the information detector (23). In a first mode of operation the grating is arranged to introduce a phase change to an incident portion of a radiation beam for transmitting that portion towards the information detector (23). In a second mode of operation the grating is arranged to introduce a phase change to an incident portion of the reflected first radiation beam for diffracting that portion towards the aberration detector (24).
    • 一种用于扫描至少一个光学记录载体(3)的至少一个信息层(2)的光学扫描装置(1)。 该装置包括用于提供至少包括第一波长的第一辐射束(4)的辐射源(7),用于将第一辐射束会聚在相应的信息层(2)上的物镜系统(8),信息检测器 (23),用于检测从各个信息层反射的第一辐射束(22)的至少一部分,用于确定关于所述层的信息,以及球面像差检测系统。 球面像差检测系统包括:像差检测器(24),用于检测用于确定第一辐射束的球面像差的反射的第一辐射束的至少一部分;以及衍射元件(26),用于衍射至少部分反射 朝向像差检测器(24)的第一辐射束,并且用于将反射的第一辐射束的至少一部分传送到信息检测器(23)。 在第一操作模式中,光栅布置成将相位变化引入辐射束的入射部分,以将该部分传送到信息检测器(23)。 在第二操作模式中,光栅布置成将相变引入到反射的第一辐射束的入射部分,以将该部分衍射到像差检测器(24)。