Patent application number | Description | Published |
20110059017 | POLYMER COATED SERS NANOTAG - An encapsulated surface enhanced Raman scattering (SERS) tag. The tag includes a metal core and an encapsulant, typically a glass encapsulant. The encapsulant is further derivatized with a polymer. | 03-10-2011 |
20110124117 | SERS NANOTAG ASSAYS WITH ENHANCED ASSAY KINETICS - Methods and systems for the use of surface-enhanced Raman scattering nanotags (SERS nanotags) in various assay platforms which feature accelerated reaction kinetics. One embodiment includes a method detecting a substance of interest by associating a SERS nanotag with the substance of interest while accelerating the reaction kinetics of the association steps. This method also includes detecting a Raman spectrum of a reporter molecule associated with the SERS nanotag. The reaction kinetics of the assay may be accelerated by applying microwave radiation to the sample, heating the sample, agitating the sample, mixing the sample, vibrating the sample or other methods. | 05-26-2011 |
20120057165 | Particles and Methods for Long Wavelength SERS - Embodiments include a particle comprising a surface enhanced spectroscopy (SES)-active core and a SES-active reporter molecule associated with the SES-active core wherein said particle has a measurable SES spectrum when excited by incident light having a wavelength of at least 1400 nm. Alternative embodiments include methods of manufacturing said particle and methods of tagging a material with said particle. The particle may include an SES-active core which supports plasmon resonance at a wavelength of at least 1400 nm. The particle may comprise an anisotropic core. The particle may include an SES-active reporter molecule which is resonant at one or more wavelengths greater than or equal to 1400 nm. | 03-08-2012 |
20130009119 | WAVELENGTH SELECTIVE SERS NANOTAGS - Wavelength selective particles such as SERS nanotags modified for wavelength selectivity. As used herein, a wavelength selective particle is one which cannot be effectively excited or interrogated at one or more wavelengths where a reporter molecule associated with the particle would normally produce a spectrum. Also disclosed are methods of manufacturing wavelength selective particles and methods of tagging materials or objects with wavelength selective particles. | 01-10-2013 |
20130011851 | Lateral Flow Immunoassay With Encapsulated Detection Modality - A lateral flow immunoassay featuring encapsulated metal particles. The encapsulated particles may use SERS nanotags as the detection modality. The use of encapsulated particles as a detection modality, in particular encapsulated SERS tags increases the sensitivity of an LFI prepared for visual reading and introduces the ability to obtain substantially more sensitive qualitative results or quantitative results through the analysis of a SERS spectrum read from an LFI prepared in accordance with the present invention. The use of SERS as detection modality also enhances the ability of an LFI device to be used for a multiplexed test. Other aspects of the present invention include LFI devices specifically configured to test whole blood, a reader for the detection and interpretation of a multiplexed assay and the hardware and software components used to implement the reader. | 01-10-2013 |
20130028839 | POLYMER COATED SERS NANOTAG - An encapsulated surface enhanced Raman scattering (SERS) tag. The tag includes a metal core and an encapsulant, typically a glass encapsulant. The encapsulant is further derivatized with a polymer. | 01-31-2013 |
20130155402 | INLINE SPECTROSCOPIC READER AND METHODS - 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. | 06-20-2013 |
20150160136 | Wavelength Selective SERS Nanotags - Materials and objects tagged with wavelength selective particles such as SERS nanotags modified for wavelength selectivity. As used herein, a wavelength selective particle is one which cannot be effectively excited or interrogated at one or more wavelengths where a reporter molecule associated with the particle would normally produce a spectrum. Also disclosed are methods of manufacturing wavelength selective particles and methods of tagging materials or objects with wavelength selective particles. | 06-11-2015 |