Patent application number | Description | Published |
20090168162 | Microscopy Methods And Apparatus For Manipulation And/Or Detection of Biological Samples And Other Objects - Microscopy methods and apparatus for manipulation, detection, imaging, characterization, sorting and/or assembly of biological or other materials, involving an integration of CMOS or other semiconductor-based technology and microfluidics in connection with a microscope. In one implementation, a microscope including optics and a stage is outfitted with various components relating to the generation of electric and/or magnetic fields, which are implemented on an IC chip. A microfluidic system is fabricated either directly on top of the IC chip, or as a separate entity that is then appropriately bonded to the IC chip, to facilitate the introduction and removal of cells in a biocompatible environment, or other particles/objects of interest suspended in a fluid. The patterned electric and/or magnetic fields generated by the IC chip can trap and move biological cells or other objects inside the microfluidic system to facilitate viewing via the microscope. | 07-02-2009 |
20090211910 | DIELECTROPHORETIC TWEEZERS APPARATUS AND METHODS - Dielectrophoretic (DEP) tweezers apparatus and methods for various applications, including particle trapping. Multiple electrodes (e.g., two or three) are disposed on or otherwise constitute an elongated object forming a tip. Exemplary electrode configurations include, but are not limited to, coaxial and triaxial arrangements. A voltage is applied across these electrodes to produce a non-uniform electromagnetic field proximate to the tip thereby creating a dielectrophoretic trap. Once trapped, a particle may be moved to desired locations via manipulation of the elongated object or the medium in which the particle is located. Multiple DEP tweezers apparatus may be arranged to form arrays of tips capable of respectively generating local electromagnetic fields confined to the tips. Such DEP arrays may be employed in nanofabrication processes involving nanolithography or nano-manipulation, as well as data storage and retrieval applications. | 08-27-2009 |
20090219647 | Dielectrophoretic Tweezers Apparatus and Methods - Dielectrophoretic (DEP) tweezers apparatus and methods for various applications, including particle trapping. Two electrodes are disposed on or otherwise constitute an elongated object forming a tip. A voltage is applied across these electrodes to produce a non-uniform electromagnetic field proximate to the tip thereby creating a dielectrophoretic trap. Once trapped, a particle may be moved to desired locations via manipulation of the elongated object or the medium in which the particle is located. Multiple DEP tweezers apparatus may be arranged to form arrays of tips capable of respectively generating local electromagnetic fields confined to the tips. Such DEP arrays may be employed in nanofabrication processes involving nanolithography or nano-manipulation, as well as data storage and retrieval applications. | 09-03-2009 |
20090220968 | Methods and Apparatus for Near Field Irradiation - Irradiation methods and apparatus configured to deliver power, via electromagnetic fields at a variety of frequencies and power levels, in a localized fashion to a target area. In one example, an electromagnetic field generator is disposed on a substrate and configured to deliver power via electromagnetic energy to a thin region proximate to (above) a surface of the substrate, wherein electromagnetic field intensity decreases significantly beyond the thin region. Such methods and apparatus are particularly useful in a wide variety of processes involving chemical and/or physical interactions in connection with a sample of interest located in the thin region. In different aspects, irradiator apparatus may be configured as disposable devices, and/or used in combination with one or more microfluidic or sensing components, for a variety of medical/laboratory/diagnostic methods and instrumentation implementations. | 09-03-2009 |
20100006439 | METHODS AND APPARATUS FOR MANIPULATION AND/OR DETECTION OF BIOLOGICAL SAMPLES AND OTHER OBJECTS - Methods and apparatus for manipulation, detection, imaging, characterization, sorting and/or assembly of biological or other materials, involving an integration of CMOS or other semiconductor-based technology and microfluidics. In one implementation, various components relating to the generation of electric and/or magnetic fields are implemented on an IC chip that is fabricated using standard protocols. The generated electric and/or magnetic fields are used to manipulate and/or detect one or more dielectric and/or magnetic particles and distinguish different types of particles. A microfluidic system is fabricated either directly on top of the IC chip, or as a separate entity that is then appropriately bonded to the IC chip, to facilitate the introduction and removal of cells in a biocompatible environment, or other particles/objects of interest suspended in a fluid. The patterned electric and/or magnetic fields generated by the IC chip can trap and move biological cells or other objects inside the microfluidic system. Electric and/or magnetic field generating components also may be controlled using signals of various frequencies so as to detect one or more cells, particles or objects of interest, and even the type of particle or object of interest, by measuring resonance characteristics associated with interactions between samples and one or more of the field-generating devices. Such systems may be employed in a variety of biological and medical related applications, including cell sorting and tissue assembly. | 01-14-2010 |
20100255556 | METHODS AND APPARATUS FOR MANIPULATION OF FLUIDIC SPECIES - The present disclosure relates generally to methods and apparatus for manipulating, detecting, imaging, and/or identifying particles, fluids, or other objects via electromagnetic fields, including methods and apparatus for identifying, sorting, splitting, coalescing, and/or reacting such particles, fluids, or other objects. Certain aspects of the invention are generally directe to methods and devices for producing electric or magnetic fields, e.g., from one or more field-generating components ( | 10-07-2010 |
Patent application number | Description | Published |
20090301550 | FOCUSED ACOUSTIC PRINTING OF PATTERNED PHOTOVOLTAIC MATERIALS - Photovoltaic material is printed on a substrate using acoustic printing, to produce solar cells. Acoustic printheads are configured to eject droplets of photovoltaic material to positions on the substrate, responsive to focused acoustic energy provided by acoustic ejectors in the acoustic printheads, to print a film of the photovoltaic material. A positioning system is configured to position the acoustic printheads with respect to the substrate. A feedback system controls the acoustic ejection of the droplets of photovoltaic material by the acoustic printheads or the positioning of the acoustic printheads with respect to the substrate by the positioning system, based on feedback data indicative of characteristics of the printed film. The acoustic printheads are designed optimally for printing of photovoltaic material for solar cells in single scans in only one direction of the substrate. Solar cells can be manufactured at low cost and with high throughput using acoustic printing. | 12-10-2009 |
20110315221 | METHODS FOR MAKING THIN FILM POLYCRYSTALLINE PHOTOVOLTAIC DEVICES USING ADDITIONAL CHEMICAL ELEMENT AND PRODUCTS THEREOF - Method for making a photovoltaic device and structure thereof. The method includes providing a substrate including a glass layer, a first conductive layer on the glass layer, and a cadmium sulfide layer on the first conductive layer. Additionally, the method includes depositing one or more first materials on the cadmium sulfide layer. The one or more first materials include a first quantity of chemical element cadmium and a second quantity of chemical element tellurium. Moreover, the method includes performing a first thermal treatment to at least the first quantity of chemical element cadmium, the second quantity of chemical element tellurium, and a third quantity of chemical element chlorine, so that a polycrystalline layer composed of at least cadmium telluride is formed on the cadmium sulfide layer. Also, the method includes depositing one or more second materials on a surface of the polycrystalline layer. | 12-29-2011 |
20120132246 | PHOTOVOLTAIC MODULES WITH IMPROVED ELECTRICAL CHARACTERISTICS AND METHODS THEREOF - Photovoltaic module and method for making same. The module includes a first sub-module and a second sub-module. The first sub-module includes a first plurality of photovoltaic cells. The first plurality of photovoltaic cells is connected in series starting with a first photovoltaic cell and ending with a second photovoltaic cell. The first photovoltaic cell includes a first front electrode. The second photovoltaic cell includes a first back electrode. The second sub-module includes a second plurality of photovoltaic cells. The second plurality of photovoltaic cells is connected in series starting with a third photovoltaic cell and ending with a fourth photovoltaic cell. The third photovoltaic cell includes a second front electrode. The fourth photovoltaic cell includes a second back electrode. Additionally, the photovoltaic module includes a first bus bar and a second bus bar. | 05-31-2012 |