Patent application number | Description | Published |
20080237134 | METHODS AND APPARATUS TO CAPTURE AND RELEASE MICROBE PARTICLES USING AMINO-FUNCTIONALIZED SILICA - Methods and apparatus to capture and release microbe particles using amino-functionalized silica substrates are described. An example apparatus adapted to capture a microbe particle includes a silica substrate and a positively charged material to at least partially coat the silica substrate. The positive charged material includes an aminopropyl functional group. | 10-02-2008 |
20080316854 | Microfluid mixer - A microfluid mixer is provided. The non-linear electrokineticsis is applied to the design of the microfluid mixer. The microfluid mixer comprises a first and a second microfluidic elements, a mixing reservoir, and a micro channel unit, wherein the micro channel unit has at least two control channels for respectively connecting the first and the second microfluidic elements and the mixing reservoir. When two microfluids are mixed in the mixing reservoir, the electro-osmosis fluid field of the microfluids in the control channel of the mixing reservoir is changed by applying AC signal, such that powerful chaotic mixing effect is therefore produced by the two microfluids in the mixing reservoir. | 12-25-2008 |
20090092989 | MICROFLUIDIC PLATFORMS FOR MULTI-TARGET DETECTION - Disclosed are example methods and devices for detecting one or more targets. An example method includes placing a sample including a first target with in a microfluidic device and hybridizing a plurality of copies of the first target with a plurality of nanostructures. The example method includes applying an electric current to the plurality of nanostructures and using an electric field created by the electric current to move the plurality of nanostructures. In addition, the plurality of nanostructures are sorted and evaluated to determine at least one of a presence, an absence, or a quantity of the first target. | 04-09-2009 |
20090277792 | Method for concentrating charged particles and apparatus thereof - The present invention discloses a method for concentrating charged particles and an apparatus thereof. The method comprises: providing a substrate comprising a reservoir; disposing a conducting granule in the reservoir, the conducting granule being negatively charged or positively charged and comprising nano-pores or nano-channels capable of permitting ion permeation; disposing a buffer solution in the reservoir, the buffer solution comprising counter-ions having an opposite electric property to the conducting granule; adding the charged particles into the buffer solution, the charged particles being co-ions having an identical electric property as the conducting granule; and applying an external electric field on the conducting granule. While the external electric field is applied on the conducting granule, the counter-ions exit from the nano-pores or nano-channels and have a nonuniform concentration on a surface of the conducting granule such that a transient ion super-concentration phenomenon occurs at an ejecting pole on the conducting granule. Hence the present invention has potential application in bead-based molecular assays. | 11-12-2009 |
20100264040 | METHOD FOR CONCENTRATING PARTICLES OR MOLECULES AND APPARATUS THEREOF - The present invention provides a method for concentrating particles or molecules and an apparatus thereof. The apparatus comprises a substrate, a conducting granule having nano-pores or nano-channels capable of permitting ion permeation, an electrolyte solution comprising counter-ions having an opposite electric property to the conducting granule, and an external field. Wherein, particles or molecules to be concentrated have an identical electric property as the conducting granule at a predefined pH value, and are added into the electrolyte solution with the predefined pH value. While the external electric field is applied across the reservoir where the conducting granule is sitting, the counter-ions exit from the nano-pores or nano-channels and such that a transient ion super-concentration phenomenon occurs at an ejecting pole on the conducting granule so as to concentrate the particles or molecules. Hence the present invention has potential application in bead-based molecular assays. | 10-21-2010 |
20110042215 | AC FIELD INDUCED BIOMOLECULE CYRSTALLIZATION AND HYDRATION CAGE DISRUPTION - An apparatus and methods for biomolecular crystallization is disclosed. The method includes providing biomolecule solution and bringing the biomolecule solution into direct contact with a plurality of electrodes. An alternating current is applied to the plurality of electrodes to impart a dielectrophoresis force upon the biomolecule solution and to form at least one crystal from the biomolecule solution. | 02-24-2011 |
20110081676 | RAPID DETECTION OF VIABLE BACTERIA SYSTEM AND METHOD - An improved system and method is provided for detecting viable bacteria in a suspension sample. A sample of a suspension in which bacterial presence is suspected is collected from a source and a portion of the sample transferred to a microfluidic unit. A series of analysis signals at different frequencies are applied to the sample portion. An impedance is measured via a signal analyzer for the sample portion for each of the analysis signals to define an impedance data set. An initial bulk capacitance value is determined for a model circuit based on the impedance dataset. After a predetermined time period, a new bulk capacitance value is determined for on another portion of the sample. The difference between the new bulk capacitance and the initial bulk capacitance value is compared to a threshold value to determine if viable bacterial is present in the sample. | 04-07-2011 |
20120199732 | METHODS AND APPARATUS FOR MASS SPECTROMETRY UTILIZING AN AC ELECTROSPRAY DEVICE - An alternating current electrospray mass spectrometry device includes an electrospray device having at least one emitter providing a passageway for transmission of an analyte sample. At least one conductive element is in electrical communication with the at least one emitter. A power source generates an alternating current electric field to form a liquid cone at a tip of the emitter and ionizes the analyte sample present in the liquid cone. The frequency of the electric field entrains low mobility ions in the liquid cone. The AC electric field causes the emitter to discharge the liquid cone as a liquid aerosol drop, and a mass spectrometry device analyzes the ionized analyte sample to determine the composition of the contained analyte sample. | 08-09-2012 |
20120322076 | MICROCHAMBER ELECTROCHEMICAL CELL HAVING A NANOSLOT - A microchamber electrochemical cell and method of using the cell for performing quantitative analysis of various charged macromolecules is presented. The microchamber electrochemical cell includes a substrate, opposing electrodes and at least one nanoslot. The substrate is configured to define a pair of opposing fluid reservoirs. The pair of opposing electrodes are respectively positioned within the opposing fluid reservoirs. Each nanoslot is configured to fluidly connect the opposing fluid reservoirs together. The opposing fluid reservoirs of the microchamber electrochemical cell are fluidly connected to each other only through each nanoslot. Each nanoslot is physically restricted to less than 500 nanometers. One method includes the steps of coupling, filling, measuring, obtaining, performing and preparing. | 12-20-2012 |
20130068632 | METHODS AND APPARATUS FOR NANOMEMBRANE-BASED NUCLEIC ACID SENSING PLATFORM FOR PORTABLE DIAGNOSTICS - A DNA/RNA detection technology is provided. The open flow detection technique includes a substrate defining a pair of opposing microchannels, a pair of opposing electrodes in the opposing microchannels, and at least one ion exchanging nanomembrane coupled between the opposing microchannels such that the opposing microchannels are connected to each other only through the nanomembrane, wherein the nanomembrane is functionalized with a probe complementary to the macromolecule. A voltammeter is provided to measure the electrical current or potential across the nanomembrane, and detect a change in the measured electrical current or potential to quantify the presence of the macromolecule | 03-21-2013 |
20140162310 | RAPID DETECTION OF VIABLE BACTERIA SYSTEM AND METHOD - An improved system and method is provided for detecting viable bacteria in a suspension sample. A sample of a suspension in which bacterial presence is suspected is collected from a source and a portion of the sample transferred to a microfluidic unit. A series of analysis signals at different frequencies are applied to the sample portion. An impedance is measured via a signal analyzer for the sample portion for each of the analysis signals to define an impedance data set. An initial bulk capacitance value is determined for a model circuit based on the impedance dataset. After a predetermined time period, a new bulk capacitance value is determined for on another portion of the sample. The difference between the new bulk capacitance and the initial bulk capacitance value is compared to a threshold value to determine if viable bacterial is present in the sample. | 06-12-2014 |
20140349287 | Method and Apparatus for a Nanopipette Biosensor - A nanopipette biosensor capable of detecting a small concentration of target molecules within a sample solution using optical detection methods. The biosensor includes a nanopipette that connects a nanocolloid reservoir containing a nanocolloid solution and a sample reservoir containing a sample solution, where the nanopipette is tapered at the end connected to the sample reservoir. The nanocolloid solution includes nanoparticles functionalized with probes specific to miRNA of the target molecules and reporters. During the detection process, the nanocolloids nanoparticles aggregate such that plasmonic hotspots are formed. These hotspots magnify the reporter signals produced when the probes hybridize with target molecules. | 11-27-2014 |