Patent application number | Description | Published |
20080280776 | Method and apparatus for detection of molecules using a sensor array - Apparatus and methods for detecting molecules in a fluidic environment are provided, including nanodevices and methods for fabricating, functionalizing, and operating such nanodevices. At least one of the methods includes selective heating of nanodevices in an array. | 11-13-2008 |
20110086352 | Label Free Detection of Nucleic Acid Amplification - Provided are methods and devices for label-free detection of nucleic acids that are amplified by polymerase chain reaction. A solution containing the components necessary for a PCR is introduced to a microfluidic amplification chamber and an electric field applied to a confined region in which PCR occurs. PCR product generated in the confined region is detected by measuring an electrical parameter that is, for example, solution impedance. The devices and methods provided herein are used, for example, in assays to detect one or more pathogens or for point-of-care tests. In an aspect, the PCR product is confined to droplets and the assay relates to detecting an electrical parameter of a flowing droplet, thereby detecting PCR product without a label. In an aspect, the PCR occurs in the droplet. | 04-14-2011 |
20120003687 | METHODS FOR COUNTING CELLS - The invention features methods of quantifying cells in a sample by lysing the cells followed by the measurement of at least one intracellular component. Methods of the invention are especially useful for quantifying small numbers of cells, e.g., over a large surface area or volume compared to the cell size. In a preferred embodiment, methods of the invention are performed using a microfluidic device. | 01-05-2012 |
20120021918 | DNA Sequencing and Amplification Systems Using Nanoscale Field Effect Sensor Arrays - In one aspect, described herein are field effect chemical sensor devices useful for chemical and/or biochemical sensing. Also provided herein are methods for single molecule detection. In another aspect, described herein are methods useful for amplification of target molecules by PCR. | 01-26-2012 |
20130200438 | SYSTEMS AND METHODS FOR SIGNAL AMPLIFICATION WITH A DUAL-GATE BIO FIELD EFFECT TRANSISTOR - The present disclosure provides a bio-field effect transistor (BioFET) and a method of fabricating a BioFET device. The method includes forming a BioFET using one or more process steps compatible with or typical to a complementary metal-oxide-semiconductor (CMOS) process. The BioFET device may include a substrate; a gate structure disposed on a first surface of the substrate and an interface layer formed on the second surface of the substrate. The interface layer may allow for a receptor to be placed on the interface layer to detect the presence of a biomolecule or bio-entity. An amplification factor of the BioFET device may be provided by a difference in capacitances associated with the gate structure on the first surface and with the interface layer formed on the second surface. | 08-08-2013 |
20130295588 | COUNTING PARTICLES USING AN ELECTRICAL DIFFERENTIAL COUNTER - This disclosure relates to methods and devices to count particles of interest, such as cells. The methods include obtaining a fluid sample that may contain particles of interest; counting all types of particles in a portion of the sample using a first electrical differential counter to generate a first total; removing any particles of interest from the portion of the fluid sample; counting any particles remaining in the portion of the fluid sample using a second electrical differential counter after the particles of interest are removed to generate a second total; and calculating a number of particles of interest originally in the fluid sample by subtracting the second total from the first total, wherein the difference is the number of particles of interest in the sample. These methods and related devices can be used, for example, to produce a robust, inexpensive diagnostic kit for CD4+ T cell counting in whole blood samples. | 11-07-2013 |
20140026686 | Cell Mass Measurement and Apparatus - Provided herein are sensors and methods for determining properties of single cells, such as cell mass. Sensors disclosed herein include resonant sensors having a suspended platform designed to exhibit a uniform vibration amplitude. Methods are also disclosed for measuring changes in cell mass, changes in cell number, changes in cell viscosity and changes in cell elasticity. | 01-30-2014 |
20140054651 | RELIABLE NANOFET BIOSENSOR PROCESS WITH HIGH-K DIELECTRIC - Provided are semiconductor field effect sensors including a high-k thin film gate dielectric. The semiconductor field effect sensors described herein exhibit high detection sensitivity and enhanced reliability when placed in contact with liquids. Also disclosed are semiconductor field effect sensors having optimized fluid gate electrode voltages and/or back gate electrode voltages for improved detection sensitivity. | 02-27-2014 |
20140139204 | COUPLED HETEROGENEOUS DEVICES FOR PH SENSING - Provided herein are methods and devices for measuring pH and for amplifying a pH signal to obtain ultrasensitive detection of changes in pH. This is achieved by providing a sensor and a transducer, wherein the sensor transconductance is sensitive to changes in pH and the transducer transconductance is not affected by pH change. The transducer instead compensates for changes in the sensor transconductance arising from pH change. The unique configuration of the sensor and transducer with respect to each other provides substantial increases in a pH amplification factor, thereby providing pH sensing devices with a giant Nernst response and, therefore, effectively increased pH sensitivity. | 05-22-2014 |
20140174927 | Nanopore Sensors for Biomolecular Characterization - Provided herein are methods and devices for characterizing a biomolecule parameter by a nanopore-containing membrane, and also methods for making devices that can be used in the methods and devices provided herein. The nanopore membrane is a multilayer stack of conducting layers and dielectric layers, wherein an embedded conducting layer or conducting layer gates provides well-controlled and measurable electric fields in and around the nanopore through which the biomolecule translocates. In an aspect, the conducting layer is graphene. | 06-26-2014 |
20140363821 | Thermal Control of Droplets by Nanoscale Field Effect Transistors - Provided herein are methods and devices for rapidly and accurately heating fluid droplets surrounded by a gas-phase medium, such as air. Sub-nanoliter fluid droplets can be rapidly heated by nanoscale field effect transistors via microwave heating by an applied AC voltage to the FET. The heating is in a well-defined interior portion of the fluid droplet, with minimal heating of the outer portion of the fluid droplet, thereby minimizing evaporation. In this manner, rapid thermal cycling is possible, including independently and in parallel for a plurality of droplets. Accordingly, the methods and devices provided herein are used in point-of-care detection such as by PCR that is high speed, robust and of low cost. | 12-11-2014 |