Patent application number | Description | Published |
20080199362 | Microfluidics Package and Method of Fabricating the Same - A microfluidics package ( | 08-21-2008 |
20090053801 | Shallow multi-well plastic chip for thermal multiplexing - Disposable units in current use for performing PCR are limited by their heat block ramping rates and by the thermal diffusion delay time through the plastic wall as well as by the sample itself. This limitation has been overcome by forming a disposable plastic chip using a simple deformation process wherein one or more plastic sheets are caused, through hydrostatic pressure, to conform to the surface of a suitable mold. After a given disposable chip has been filled with liquid samples, it is brought into close contact with an array of heating blocks that seals each sample within its own chamber, allowing each sample to then be heat treated as desired. | 02-26-2009 |
20100009970 | COMPOSITIONS AND METHODS FOR TREATMENT OF VIRAL DISEASES - The present invention features compositions, methods, and kits useful in the treatment of viral diseases. In certain embodiments, the viral disease is caused by a single stranded RNA virus, a flaviviridae virus, or a hepatic virus. In particular embodiments, the viral disease is viral hepatitis (e.g., hepatitis A, hepatitis B, hepatitis C, hepatitis D, hepatitis E) and the agent or combination of agents includes sertraline, a sertraline analog, UK-416244, or a UK-416244 analog. Also featured are screening methods for identification of novel compounds that may be used to treat a viral disease. | 01-14-2010 |
20100081713 | COMPOSITIONS AND METHODS FOR TREATING VIRAL INFECTIONS - The present invention provides compositions, methods, and kits for treating or preventing a viral infection (e.g., an infection caused by an influenza virus). | 04-01-2010 |
20100283101 | PATTERNING NANOCRYSTAL LAYERS - A method for forming a semiconductor device is presented. The method includes providing a substrate prepared with first and second regions with a first device layer. A second device layer including nanocrystals is also formed. A cover layer is provided over the second device layer. The cover layer is patterned to expose portions of the second device layer in the first and second regions. The exposed portions of the second device layer in the first and second regions are processed to form modified portions. The processing of the exposed portions at least reduces the nanocrystals to a diameter below a threshold diameter in the modified portions. The modified portions are removed. | 11-11-2010 |
20110129910 | COOLING DEVICE, AND ASSEMBLY, AND METHODS FOR LOWERING TEMPERATURE IN A CHEMICAL REACTION - Embodiments provide a cooling device. The cooling device comprises a container configured as a heat sink. The container is at least partially made from heat conducting material. The cooling device further comprises endothermic chemical material which is contained in the container. | 06-02-2011 |
20110129931 | MICROFLUIDIC SYSTEM FOR DETECTING A BIOLOGICAL ENTITY IN A SAMPLE - According to various embodiments, a microfluidic system for detecting a biological entity in a sample volume is provided. The microfluidic system may include: a chamber configured to receive the sample volume, wherein the chamber includes a detection region for detecting the biological entity; a first port in fluid communication with the chamber; and a second port including a filter in fluid communication with the chamber; and wherein a fluid provided to the first port or the second port flows between the first port and the second port through the chamber. | 06-02-2011 |
20110192726 | DEVICE AND METHOD FOR DETECTION OF ANALYTE FROM A SAMPLE - There is presently provided a device for detecting an analyte particle in a sample. The device comprises a chamber having an interior surface upon which is located an electrode array. The electrode array comprises pairs of electrodes, each pair having an inner electrode and an outer electrode that substantially surrounds the inner electrode. Each pair of electrodes is coated with a capture molecule that recognises and binds the analyte particle that is to be identified and quantified. The device uses a combination of dielectrophoresis and impedance measurements to capture and measure analyte particles from a sample. | 08-11-2011 |
20120262985 | MULIT-BIT CELL - A method for forming a device is disclosed. The method includes providing a substrate prepared with a primary gate and forming a charge storage layer on the substrate over the primary gate. A secondary gate electrode layer is formed on the substrate over the charge storage layer. The charge storage and secondary gate electrode layers are patterned to form first and second secondary gates on first and second sides of the primary gate. | 10-18-2012 |
20140252445 | METHOD OF FORMING SPLIT-GATE CELL FOR NON-VOLATIVE MEMORY DEVICES - Fabrication of a slim split gate cell and the resulting device are disclosed. Embodiments include forming a first gate on a substrate, the first gate having an upper surface and a hard-mask covering the upper surface, forming an interpoly isolation layer on side surfaces of the first gate and the hard-mask, forming a second gate on one side of the first gate, with an uppermost point of the second gate below the upper surface of the first gate, removing the hard-mask, forming spacers on exposed vertical surfaces, and forming a salicide on exposed surfaces of the first and second gates. | 09-11-2014 |