Patent application number | Description | Published |
20080240543 | Calibration and normalization method for biosensors - Calibration and normalization methods for a grating-based sensor design are disclosed. The sensor may be constructed in a manner optimized for both label-free and luminescence, e.g. fluorescence, amplification detection in a single device. Such a sensor, based on grating or another periodical structure with appropriate coating, dramatically increases the diversity of applications and allows realizing novel concepts that provide qualitative and quantitative information/data for each location or capture element in the sensor surface. The invention takes advantage of these different modes to carry out a quality control (QC) step and a calibration of each individual location of the sensor. Thus, the assay data can be flagged according to their quality and local density variations, batch variations and variations in the printed deposition of probes or the materials to the surface can be compensated. | 10-02-2008 |
20100003743 | Grating-based sensor combining label-free binding detection and fluorescence amplification and readout system for sensor - A grating-based sensor is disclosed that has a grating structure constructed and designed for both evanescent resonance (ER) fluorescence detection and label-free detection applications. Some embodiments are disclosed which are optimized for ER detection in an air mode, in which the sample is dry. Other embodiments are optimized for ER detection in liquid mode, in which the sample is suspended in liquid medium such as water. One and two-dimensional gratings are also disclosed, including gratings characterized by unit cells with central posts, central holes, and two-level, two-dimensional gratings. A readout system for such sensors is also disclosed. One embodiment includes a first light source optimized for collecting label-free detection data, a second light source optimized for collecting ER fluorescence amplification data, and at least one detector. In one embodiment, the detector is an imaging system and includes a CCD camera for collecting both ER and label-free data. In other embodiments, the at least one detector takes the form of a spectrometer for collection of label-free data and a photomultiplier for collecting ER data. In other embodiments, a single light source such as a tunable laser or broad band light source is used. | 01-07-2010 |
20100008826 | Biosensors featuring confinement of deposited material and intra-well self-referencing - A test device includes one or more sample wells and a biosensor placed in the well. The biosensor includes structural features promoting confinement of a deposited material, e.g., surface chemistry material, to stay within a specified predetermined area in the well. The biosensor is also constructed with two or more distinct spatial regions exhibiting different resonance values (“peak wavelength values” or PWV). One of the distinct spatial regions encompasses the specified predetermined area where the material is deposited and exhibits resonance at PWV | 01-14-2010 |
20100227769 | GRATING-BASED SENSOR COMBINING LABEL-FREE BINDING DETECTION AND FLUORESCENCE AMPLIFICATION AND READOUT SYSTEM FOR SENSOR - A grating-based sensor is disclosed that has a grating structure constructed and designed for both evanescent resonance (ER) fluorescence detection and label-free detection applications. Some embodiments are disclosed which are optimized for ER detection in an air mode, in which the sample is dry. Other embodiments are optimized for ER detection in liquid mode, in which the sample is suspended in liquid medium such as water. One and two-dimensional gratings are also disclosed, including gratings characterized by unit cells with central posts, central holes, and two-level, two-dimensional gratings. A readout system for such sensors is also disclosed. One embodiment includes a first light source optimized for collecting label-free detection data, a second light source optimized for collecting ER fluorescence amplification data, and at least one detector. In one embodiment, the detector is an imaging system and includes a CCD camera for collecting both ER and label-free data. In other embodiments, the at least one detector takes the form of a spectrometer for collection of label-free data and a photomultiplier for collecting ER data. In other embodiments, a single light source such as a tunable laser or broad band light source is used. | 09-09-2010 |
20100291575 | Detection of Changes in Cell Populations and Mixed Cell Populations - The invention provides methods of label-free detection of changes in cell populations and mixed cell populations. | 11-18-2010 |
20100329933 | Grating-based sensor combining label-free binding detection and fluorescence amplification and readout system for sensor - A grating-based sensor is disclosed that has a grating structure constructed and designed for both evanescent resonance (ER) fluorescence detection and label-free detection applications. Some embodiments are disclosed which are optimized for ER detection in an air mode, in which the sample is dry. Other embodiments are optimized for ER detection in liquid mode, in which the sample is suspended in liquid medium such as water. One and two-dimensional gratings are also disclosed, including gratings characterized by unit cells with central posts, central holes, and two-level, two-dimensional gratings. A readout system for such sensors is also disclosed. One embodiment includes a first light source optimized for collecting label-free detection data, a second light source optimized for collecting ER fluorescence amplification data, and at least one detector. In one embodiment, the detector is in the form of an imaging system and includes a CCD camera for collecting both ER and label-free data. In other embodiments, the at least one detector takes the form of a spectrometer for collection of label-free data and a photomultiplier for collecting ER data. In other embodiments, a single light source such as a tunable laser or broad band light source is used. | 12-30-2010 |
20120007000 | Multi-color fluorescence enhancement from a photonic crystal surface - A photonic crystal substrate exhibiting resonant enhancement of multiple fluorophores has been demonstrated. The device, which can be fabricated uniformly from plastic materials over a ˜3×5 in | 01-12-2012 |
20120058507 | Clonal Derivation and Cell Culture quality Control Screening Methods - The invention provides methods of label-free detection of changes in cell populations and mixed cell populations. | 03-08-2012 |