Patent application number | Description | Published |
20090142825 | COMPOSITE DETECTION DEVICES HAVING IN-LINE DESALTING AND METHODS OF MAKING THE SAME - A composite detection device having in-line desalting is provided. The composite detection device comprises a membrane configured for desalting at least a portion of an analyte stream, and a nanostructure for detecting a bio-molecule or a bio-molecule interaction, wherein the nanostructure and the membrane are arranged such that an analyte stream desalted at least in part by the membrane is detected by the nanostructure. A bio-sending detection system having the composite detection device and method of fabrication of the composite detection device are also provided. | 06-04-2009 |
20100096267 | SYSTEM AND METHOD FOR PERFORMING MICROFLUIDIC MANIPULATION - Electrophoresis systems and methods comprise an electrophoresis device, wherein the electrophoresis comprises a loading channel, a separation channel, and an injection channel. The loading channel is in fluid communication with a first and second sample port. The separation channel is connected to the loading channel to form a first intersection, and an injection channel connected to the separation channel to form a second intersection and in fluid communication with a first reservoir, and wherein the separation channel is in fluid communication with a second reservoir. The electrophoresis system further comprises two electrodes coupled to the first sample port and the first reservoir, and the first sample port and the second reservoir, respectively, that are adapted to move the sample into the loading channel towards the first reservoir and form a sample plug in the separation channel, and to further move the sample plug into the separation channel towards the second reservoir. | 04-22-2010 |
20100101951 | ELECTROPHORESIS SYSTEM AND METHOD - Electrophoresis systems and methods comprise an electrophoresis device, wherein the electrophoresis device comprises a loading channel, an injection channel, and a separation channel. The loading channel is in fluid communication with a first and second sample port. The injection channel is connected to the loading channel to form a first intersection. The separation channel is connected to the injection channel to form a second intersection and in fluid communication with a first and second reservoir, and wherein the injection channel is in fluid communication with a third reservoir. The electrophoresis system further comprises electrodes coupled to the first sample port and the third reservoir, and the first reservoir and the second reservoir, respectively, that are adapted to move the sample into the loading channel towards the third reservoir and form a sample plug in the second intersection, and to further move the sample plug into the separation channel towards the second reservoir. | 04-29-2010 |
20100129785 | AGENTS AND METHODS FOR SPECTROMETRIC ANALYSIS - Disclosed herein are agents, methods, and kits for determining the presence or concentration of a target, or multiple targets, in a sample, in a uniplexed or multiplexed fashion. In general, the methods enable the analysis of small molecules produced or consumed in liquid-phase that may be analyzed using gas or vapor phase detection methods. | 05-27-2010 |
20100129795 | AGENTS AND METHODS FOR SPECTROMETRIC ANALYSIS - Disclosed herein are agents, methods, and kits for determining the presence or concentration of a target, or multiple targets, in a sample, in a uniplexed or multiplexed fashion. In general, the methods enable the analysis of small molecules produced or consumed in liquid-phase that may be analyzed using gas or vapor phase detection methods. | 05-27-2010 |
20100147762 | MEMBRANE ASSEMBLIES AND METHODS OF MAKING AND USING THE SAME - A method of making a membrane assembly is provided. The method comprises forming an inorganic membrane layer disposed on a substrate, and forming a plurality of macropores in the substrate at least in part using anodization. Further, a membrane assembly is provided. The membrane assembly comprises a filtering membrane that is coupled to an anodized substrate comprising a plurality of macropores. | 06-17-2010 |
20100159572 | DEVICE AND ASSOCIATED METHOD - A microfluidic device for detecting one or more molecules of interest comprising: a non-conductive substrate; wherein the non-conductive substrate is provided with a plurality of thermally active elements is provided. A method for selectively functionalizing a plurality of thermally active elements is also provided. | 06-24-2010 |
20100300882 | DEVICES AND METHODS FOR IN-LINE SAMPLE PREPARATION OF MATERIALS - A microfluidic device for in-line sample preparation of one or more materials. The microfludic device comprises an in-line tangential flow component. The in-line tangential flow component comprises a first channel through which the sample flows; and one or more additional channels. The first channel and the one ore more channels are separated by a membrane; and wherein a differential is present between the first channel and additional channel that is separated by the membrane. | 12-02-2010 |
20110042299 | COMPOSITE MEMBRANE ASSEMBLIES AND METHODS OF MAKING AND USING THE SAME - A composite membrane assembly is provided. The composite membrane assembly comprises a porous substrate, a filtering membrane at least partially coupled to the porous substrate, a polymer membrane at least partially coupled to the filtering membrane, and an interface material at least partially disposed between the filtering membrane and the polymer membrane. | 02-24-2011 |
20110070596 | AGENTS AND METHODS FOR ANALYZING PROTEIN INTERACTIONS - Agents and methods for qualitative and quantitative analysis a protein complex or protein complexes using isotope-labeled symmetrical bifunctional crosslinkers and mass spectrometry are provided. Targeting moieties, cell permeability moieties, or affinity moieties, may be appended to the bifunctional crosslinkers. The isotope-labeled symmetrical bifunctional crosslinkers may be used in a kit or as a library. | 03-24-2011 |
20110122412 | DEVICES AND METHODS FOR OPTICAL DETECTION - An optical detection system for sensing one or more samples is provided. The optical detection system comprises a broadband light source that emits a beam comprising a continuous spectrum over a range of wavelengths; a fluidic cell comprising one or more channels that positions the sample so that at least a portion of the beam is directed on the sample to produce a back reflected beam; and a spectrometer that analyzes an interference spectrum of the beam back reflected from the sample. | 05-26-2011 |