Patent application number | Description | Published |
20090140128 | Methods, systems and apparatus for light concentrating mechanisms - An embodiment relates generally to resonant structure. The resonant structure includes a substrate and a nano-bowtie antenna deposited over the substrate. The resonant structure also includes an enclosure deposited over the substrate and surrounding the nano-bowtie antenna, where the enclosure is configured to raise an enhancement level in the nano-bowtie antenna. | 06-04-2009 |
20090280497 | Multiplex Detection Compositions, Methods, and Kits - The present invention generally relates to the detection of analytes, particularly biomolecules in samples. The invention also relates to compositions, methods, and kits for detecting the presence of analytes, typically in multiplex detection formats. The invention also relates to methods for determining the presence of at least one analyte in a sample, the methods employing employ single molecule detection techniques to individually detect at least one molecular complex or at least part of a molecular complex. | 11-12-2009 |
20100105886 | COMPOSITIONS, METHODS, AND KITS FOR FABRICATING CODED MOLECULAR TAGS - The present teachings generally relate to probes and probes sets for detecting analytes. The teachings also relates to compositions, methods, and kits for assembling probes comprising at least one coded molecular tag. | 04-29-2010 |
20100112572 | COMPOSITIONS, METHODS, AND KITS FOR FABRICATING CODED MOLECULAR TAGS - The teachings herein generally relates to probes comprising fabricated coded molecular tags for detecting analytes. The teachings also relate to compositions, methods, and kits for fabricating coded molecular tags comprising a multiplicity or reporter groups in an ordered pattern. | 05-06-2010 |
20110223596 | Multiplex Detection Compositions, Methods, and Kits - The present invention generally relates to the detection of analytes, particularly biomolecules in samples. The invention also relates to compositions, methods, and kits for detecting the presence of analytes, typically in multiplex detection formats. The invention also relates to methods for determining the presence of at least one analyte in a sample, the methods employing employ single molecule detection techniques to individually detect at least one molecular complex or at least part of a molecular complex. | 09-15-2011 |
20150218630 | DNA SEQUENCING METHODS AND DETECTORS AND SYSTEMS FOR CARRYING OUT THE SAME - In some embodiments, an analyte detection system is provided that includes a nanochannel, an electrode arrangement, and a plurality of nanoFET devices disposed in the nanochannel. A plurality of nucleic acid base detection components can be used that include a plurality of nanopores, a plurality of nanochannels, a plurality of hybridization probes, combinations thereof, and the like. According to other embodiments of the present teachings, different coded molecules are hybridized to a target DNA molecule and used to detect the presence of various sequences along the target molecule. A kit including mixtures of coded molecules is also provided. In some embodiments, devices including nanochannels, nanopores, and the like, are used for manipulating movement of DNA molecules, for example, in preparation for a DNA sequencing detection. Nanopore structures and methods of making the same are also provided as are methods of nucleic acid sequencing using the nanopore structures. Surface-modified nanopores are provided as are methods of making them. In some embodiments, surfaced-modified nanopores for slowing the translocation of single stranded DNA (ssDNA) through the nanopore are provided, as are nanopores configured to detect each of a plurality of different bases on an ssDNA strand. | 08-06-2015 |
Patent application number | Description | Published |
20100095447 | TOILET OVERFLOW PREVENTION SYSTEM AND METHOD - A system for preventing overflow of a toilet includes a sensor, a processor and an actuator. The sensor senses a parameter caused by fluid dynamics within the toilet during a flush cycle. The parameter may involve vibration, sound, pressure, fluid flow rate or other detectible characteristics of the toilet. The processor uses information regarding the parameter that is gathered by the sensor to evaluate the condition of the flush cycle to determine if an impeded flush condition exists. In the event of an impeded flush condition, the processor directs the actuator to close a valve, which may be the toilet flapper valve in some embodiments. Also disclosed are methods for preventing toilet overflow, detecting an impeded flush condition and calibrating the system. | 04-22-2010 |
20120023654 | TOILET OVERFLOW PREVENTION SYSTEM AND METHOD - A system for preventing overflow of a toilet includes a sensor, a processor and an actuator. The sensor senses a parameter caused by fluid dynamics within the toilet during a flush cycle. The parameter may involve vibration, sound, pressure, fluid flow rate or other detectible characteristics of the toilet. The processor uses information regarding the parameter that is gathered by the sensor to evaluate the condition of the flush cycle to determine if an impeded flush condition exists. In the event of an impeded flush condition, the processor directs the actuator to close a valve, which may be the toilet flapper valve in some embodiments. Also disclosed are methods for preventing toilet overflow, detecting an impeded flush condition and calibrating the system. | 02-02-2012 |
20130247291 | TOILET OVERFLOW PREVENTION SYSTEM AND METHOD - A system for preventing overflow of a toilet includes a sensor, a processor and an actuator. The sensor senses a parameter caused by fluid dynamics within the toilet during a flush cycle. The parameter may involve vibration, sound, pressure, fluid flow rate or other detectible characteristics of the toilet. The processor uses information regarding the parameter that is gathered by the sensor to evaluate the condition of the flush cycle to determine if an impeded flush condition exists. In the event of an impeded flush condition, the processor directs the actuator to close a valve, which may be the toilet flapper valve in some embodiments. Also disclosed are methods for preventing toilet overflow, detecting an impeded flush condition and calibrating the system. | 09-26-2013 |
Patent application number | Description | Published |
20130341439 | METHOD FOR BLENDING FOOD OR BEVERAGES - A method for blending food or beverages, preferably using a blender that is compact enough for home use, rugged enough to blend frozen beverages, simple to use and safe. The blender includes an upper housing, with a front housing door, that covers the moving blending machinery. The blender also includes a cupholder receiving area which allows the user to safely insert a frozen beverage cup inside a cupholder for blending. After the start button is pressed, a cupholder lip will be grasped by the clamping jaw of an elevator assembly to lift the cupholder up. As the cupholder is lifted upward, a cover will be pressed over the top opening of the inserted cup to prevent spillage during blending. The elevator assembly will then continue to lift the cupholder upward until the rotating cutter blades of a spindle assembly cut through successive layers of the frozen beverage. | 12-26-2013 |
20130341446 | COMPACT BLENDER FOR FROZEN BEVERAGES - A blender that is compact enough for home use, rugged enough to blend frozen beverages, simple to use and safe. The blender includes an upper housing, with a front housing door; that covers the moving blending machinery. The blender also includes a cupholder receiving area which allows the user to safely insert a frozen beverage cup inside a cupholder for blending. After the start button is pressed, a cupholder lip will be grasped by the clamping jaw of an elevator assembly to lift the cupholder. As the cupholder is lifted upward, a cover will be pressed over the top opening of the inserted cup to prevent spillage during blending. The elevator assembly will then continue to lift the cupholder upward until the rotating cutter blades of a spindle assembly cut through successive layers of the frozen beverage. | 12-26-2013 |
20130343150 | REMOVABLE BLENDER SPINDLE WITH CONTAINER COVER - A removable spindle for a blender that is compact enough for home use, rugged enough to blend frozen beverages, simple to use and safe. The spindle preferably includes a quick release coupling member, a rotating shaft, cup cover and rotating cutting blades. To facilitate cleaning of the spindle assembly, the quick release coupling member allows the spindle to be quickly detached from the blender. The rotating shaft is preferably housed in an outer sleeve for structural/alignment purposes and to keep the shaft free from food/beverage particles. Slidably attached to the outside of the outer sleeve and trapped between the quick release coupling member and the rotating cutting blades is a moveable cup cover. | 12-26-2013 |
20130344221 | BLENDER WITH ELEVATOR ASSEMBLY AND REMOVABLE SPINDLE - A blender for home or commercial use that is rugged enough to blend frozen beverages, simple to use and safe. The blender includes an upper housing with a front housing door that covers the moving blending machinery. The blender also includes a cupholder receiving area which allows the user to safely insert a frozen food or beverage cup inside a cupholder for blending. After the start button is pressed, the cup and cupholder will be lifted together for blending in a balanced, linear motion by an elevator assembly. Dual lead screws or a dual belt drive are preferably used in the elevator assembly to achieve this balanced, linear motion. As the cupholder is lifted upward, a cover will be pressed over the top opening of the inserted cup to prevent spillage during blending. The elevator assembly continues to lift the cupholder upward until the rotating cutter blades of a spindle assembly cut through successive layers of the frozen food or beverage. To facilitate cleaning, the spindle assembly is preferably removable from the blender through use of a quick release coupling mechanism. | 12-26-2013 |