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    • 1. 发明申请
    • INLINE SPECTROSCOPIC READER AND METHODS
    • 在线光谱读取器和方法
    • WO2012030988A1
    • 2012-03-08
    • PCT/US2011/050008
    • 2011-08-31
    • CABOT SECURITY MATERIALS INC.WALTON, Ian D.DOERING, William E.NATAN, Michael J.
    • WALTON, Ian D.DOERING, William E.NATAN, Michael J.
    • G01J3/44
    • G01J3/28G01J3/0208G01J3/0218G01J3/0272G01J3/0291G01J3/0294G01J3/2803G01J3/44G01N21/85G01N21/8901G07D7/1205
    • An inline spectroscopic reader having a light source, one or more optics heads, a spectrometer and a data processing system in digital communication with the spectrometer detector. The optics heads include transmission optics providing for the illumination of a target with light from the light source and detection optics providing for the collection of light from the target. Typically, the target is moving with respect to the optics head during spectroscopic interrogation. The spectroscopic reader is thus an inline reader well suited to provide spectrum based production or analytical decision making in real time as the target moves along a production or analysis line. Also disclosed are methods including the steps of illuminating a target with light from a light source; collecting light from the target; obtaining a digitized spectrum with a spectrometer; extracting information content from the digitized spectrum; and basing a contemporaneous process decision upon the information content.
    • 具有光源,一个或多个光学头,光谱仪和与光谱仪检测器进行数字通信的数据处理系统的在线分光学阅读器。 光学头包括传输光学器件,用于提供来自光源的光的目标照明和用于从目标物体收集光的检测光学器件。 通常,目标在光谱询问期间相对于光学头移动。 因此,光谱阅读器是一个在线阅读器,非常适合随着目标沿着生产线或分析线移动,实时提供基于频谱的生产或分析决策。 还公开了包括用来自光源的光照射目标的步骤的方法; 从目标收集光; 用光谱仪获得数字化光谱; 从数字化频谱中提取信息内容; 并对信息内容进行同时代的过程决策。
    • 3. 发明申请
    • SERS NANOTAG ASSAYS
    • SERS纳米测试
    • WO2009009198A3
    • 2009-02-19
    • PCT/US2008060871
    • 2008-04-18
    • BECTON DICKINSON CONATAN MICHAEL J
    • NATAN MICHAEL J
    • G01J3/00
    • C40B70/00B01J2219/00572B01J2219/00576B01J2219/00722B01J2219/00725B82Y20/00B82Y30/00G01N21/658G01N2201/06193Y10S977/773
    • A method of producing a surface enhanced Raman scattering spectrum which is useful for certain types of assays, in particular proximity assays. The method includes providing two SERS-active nanoparticles. The first SERS-active nanoparticle will absorb a photon at a first wavelength and emit a Raman-shifted photon at a second wavelength. The second SERS-active nanoparticle will absorb a photon at the second wavelength and emit a Raman-shifted photon at a third wavelength. Accordingly, when the first and second SERS-active nanoparticles are proximate to one another and the first SERS-active nanoparticle is illuminated at the first wavelength a Raman-shifted photon at the second wavelength may be emitted. This photon can be absorbed by the second SERS-active nanoparticle causing detectable emission of a second Raman-shifted photon at the third wavelength. Various assays may be designed based upon the above. Proximity assays using two SERS-active nanoparticles will have advantageous background signal characteristics.
    • 产生表面增强拉曼散射光谱的方法,其可用于某些类型的测定,特别是邻近测定。 该方法包括提供两种SERS活性纳米颗粒。 第一SERS活性纳米颗粒将吸收第一波长的光子并发射第二波长的拉曼偏移光子。 第二SERS活性纳米颗粒将吸收第二波长的光子并发射第三波长的拉曼偏移光子。 因此,当第一和第二SERS活性纳米粒子彼此接近并且第一SERS活性纳米粒子在第一波长处被照射时,可以发射第二波长的拉曼位移光子。 该光子可被第二SERS活性纳米颗粒吸收,引起第三波长处的第二拉曼位移光子的可检测发射。 基于上述可以设计各种分析。 使用两种SERS活性纳米粒子的接近测定法将具有有利的背景信号特征。