40th week of 2014 patent applcation highlights part 57 |
Patent application number | Title | Published |
20140295529 | COMPOSITIONS COMPRISING EICOSAPENTAENOIC ACID SUITABLE FOR HIGH PURIFICATION - The invention relates to a microbial biomass composition produced from a heterotrophic fermentation whose fatty acid profile exhibits an eicosapentaenoic acid (EPA) to arachidonic acid (ARA) ratio of about 11:1 or more, an EPA to total co-concentrating fatty acid ratio of about 8:1 or more, extract compositions, and methods of producing such compositions. | 2014-10-02 |
20140295530 | METHOD FOR INCREASING THE COQ10 AND COQH2 CONTENT IN PHOTOTROPHIC MICROORGANISMS - A method for increasing the content of ubiquinone (CoQ10) and ubiquinol (CoQH2) in phototrophic microorganisms that were cultivated in a culture medium in a bioreactor under light irradiation, wherein the phototrophic microorganisms are selected from the group consisting of blue algae, green algae and yellow-green algae, comprising a step of inducing oxidative stress. By virtue of the fact that oxidative stress was induced by incubating the phototrophic microorganisms together with Fe | 2014-10-02 |
20140295531 | ENZYME PROMOTED CO2 CAPTURE INTEGRATED WITH ALGAE PRODUCTION - The invention relates to the field of reduction of CO | 2014-10-02 |
20140295532 | SYSTEMS AND METHODS FOR PRODUCING BIOPRODUCTS - The present disclosure is directed to systems and methods for sampling and/or controlling the productivity of a bioreactor. | 2014-10-02 |
20140295533 | Enhanced Microfluidic Valves for Media Diagnostics - The invention provides a micro-fluidic device that includes a pre-loaded sample that begins to flow only when a sample is provided in the device. In certain embodiments, the invention provides a micro-fluidic device including at least two paper flow path layers providing fluid flow in substantially parallel planar directions, and at least one valve positioned between the at least two paper flow paths, wherein the at least one valve for providing flow in a direction that is orthogonal to the substantially planar directions. | 2014-10-02 |
20140295534 | SYSTEMS AND DEVICES FOR ISOTHERMAL BIOCHEMICAL REACTIONS AND/OR ANALYSIS - An isothermal reaction and analysis system may include a receiver to receive sample holders, a thermal control subsystem to control a temperature of the receiver, an excitation subsystem, a detection subsystem and an analysis subsystem. Excitation sources and/or detectors are positioned to enhance data collection. Sample holders may include filters, selectively blocking and passing wavelengths or bands of electromagnetic radiation. | 2014-10-02 |
20140295535 | MEASUREMENT APPARATUS - A measurement apparatus includes: a holding unit that holds at least a specimen to be observed; an illumination unit that emits illumination light to be irradiated to the specimen; a detection unit that is arrangeably provided in the holding unit and detects an intensity of the illumination light on a light irradiation surface of the specimen; a field stop that is formed with an aperture and stops down a field on the light irradiation surface by an image of the aperture that is provided on an optical path of the illumination unit, the aperture through which the illumination light passes and through which an image of the illumination light is projected on the light illumination surface; and a computation unit that computes, based on an area of the aperture and the detected intensity, an intensity of the illumination light per unit area of the light irradiation surface. | 2014-10-02 |
20140295536 | PARTICLE MEASURING APPARATUS - A particle measuring apparatus comprising a flow cell configured to flow a specimen, a first light source configured to emit light having a first wavelength, a second light source configured to emit light having a second wavelength different from the first wavelength, an irradiation optical system configured to irradiate the flow cell with light emitted from the first light source and the second light source, a first light receiving portion configured to receive scattered light obtained by irradiating a measurement particle passing through the flow cell with light from the first light source, and a second light receiving portion configured to receive scattered light obtained by irradiating a measurement particle passing through the flow cell with light from the second light source. | 2014-10-02 |
20140295537 | SANITIZING FLOOR MAT - The present invention is comprised of an antibacterial door mat system for cleaning, disinfecting and detection of bacteria and other organisms on footwear to control spread of biological infections and contamination. The present invention is further comprised of an antibacterial door mat that cleans footwear, detects the presence of bacteria and a bio detection clearance door entry system that controls the entry into sterile areas. | 2014-10-02 |
20140295538 | DEVICE AND SYSTEM FOR MECHANICAL MEASUREMENT OF BIOMATERIAL - A test device applies a defined mechanical load to a soft biomaterial such as a cell culture and a microscope forms a volume image data set showing the strain field or displacement field occurring in the medium. The data set is processed to determine fundamental mechanical properties of the cell, its interaction with the surrounding medium, or its responses loading or deformation of its surrounding medium. The device may also be used to calibrate or determine fundamental mechanical properties of the medium. The device includes a linear actuator that bears against the specimen, and adapted for a volume imaging device such as a scanning laser confocal microscope that forms a volume image data set of the specimen. The specimen may be supported in a Petri dish and is preferably imaged from below by an inverted microscope. Preferably the actuator device attaches to or forms the specimen stage of microscope. Digital correlation of volumes in the data set allow computation of modulus, stress distribution and other mechanical characteristics of cell-matrix interactions, as well as mechanical properties of the cell and the matrix in response to changing loads, evolving chemical or ionic environment and growth phases. The test device may be operated to measure local mechanical parameters, to evaluate or design tissue-engineered implants, and to explore the mechanical properties of tissues, cells and cellular processes a micrometer scale with high accuracy. | 2014-10-02 |
20140295539 | CONTAINER FOR CULTURING CELLS HAVING NANOSTRUCTURES, AND PREPARATION METHOD THEREOF - A container for culturing cells having nanostructures according to the present invention comprises a cell culture surface onto which adult stem cells are adhered so as to be proliferated and differentiated, wherein the cell culture surface comprises nanostructures placed thereon at regular intervals, the nanostructures comprise nano-pillars protruded from the cell culture surface, the width of the nano-pillars is 40-500 nm, and the height of the nano-pillars is 10 nm-1 μm. | 2014-10-02 |
20140295540 | MEANS FOR GENERATING ADENOVIRAL VECTORS FOR CLONING LARGE NUCLEIC ACIDS - The present invention is related to a nucleic acid molecule, which is also referred to as third nucleic acid molecule, wherein the third nucleic acid molecule comprises
| 2014-10-02 |
20140295541 | CELL CULTURE DEVICE, CELL CULTURE SYSTEM, AND CELL CULTURE METHOD - To provide a cell culture device, a cell culture system and a cell culture method capable of suppressing fluctuations in pressure in a culture fluid, and suppressing gas bubbles from flowing into a cell culture section. A cell culture device including: a cell culture section that cultures cells; a storage section that stores a culture fluid; flow paths that connect the cell culture section and the storage section; a fluid delivery device that is provided at the flow paths and that delivers the culture fluid from the storage section to the cell culture section; a pressure equalizing unit that is provided at the flow paths and that suppresses fluctuations in pressure imparted to the culture fluid delivered to the cell culture section; and a pressurization unit that is provided at the flow path at a flow outlet side of the cell culture section and that applies a specific pressure to the culture fluid. | 2014-10-02 |
20140295542 | CELL SEPARATION COMPOSITIONS AND METHODS FOR SEPARATING AND RECOVERING THERAPEUTIC CELLS IN BLOOD TISSUE - Embodiments provide a cell separation composition and methods for separating and recovering desired therapeutic cells in a blood tissue sample. | 2014-10-02 |
20140295543 | METHODS AND COMPOSITIONS RELATING TO POLYPEPTIDES WITH RNASE III DOMAINS THAT MEDIATE RNA INTERFERENCE - The present invention concerns methods and compositions involving RNase III and polypeptides containing RNase III domains to generate RNA capable of triggering RNA-mediated interference (RNAi) in a cell. In some embodiments, the RNase III is from a prokaryote. RNase III activity will cleave a double-stranded RNA molecule into short RNA molecules that may trigger or mediate RNAi (siRNA). Compositions of the invention include kits that include an RNase III domain-containing polypeptide. The present invention further concerns methods using polypeptides with RNase III activity for generating RNA molecules that effect RNAi, including the generation of a number of RNA molecules to the same target. | 2014-10-02 |
20140295544 | FLUORESCENT PROTEINS WITH INCREASED ACTIVITY IN CELLS - The present invention relates to fluorescent proteins, in particular green fluorescent proteins (GFPs), with increased activity in cells, and thus increased signal strength. A further aspect of the present invention relates to the use of peptides for increasing the expression and/or stability of a protein in a cell. | 2014-10-02 |
20140295545 | PRE-PROGRAMMED NON-FEEDBACK CONTROLLED CONTINUOUS FEEDING OF CELL CULTURES - A pre-programmed non-feedback continuous feeding method based on mass balance of the substrate in the bioreactor for use in culture growth and maintenance is provided. The disclosed method does not rely on instrument, probe or operator feedback. The method provides an efficient and effective alternative to bolus feeding. | 2014-10-02 |
20140295546 | FLUID DISTRIBUTION IN A SAMPLE EXPOSURE DEVICE - The invention relates to fluid distribution in an exposure device. The exposure device, in some examples, is a device for exposing living cell cultures or cellular tissues to a fluid such as cigarette smoke, air and/or other gases or gas mixtures, for use in studies of the effects on the cell cultures or tissues of their exposure to the fluid. A fluid distribution member is described for distributing the fluid in the exposure device, the member including a plurality of apertures in a surface arranged such that, when the distribution member is fitted to the fluid exposure device, the distribution member receives fluid applied to the surface of the member and distributes the fluid, via the apertures, to samples to be exposed to the fluid in the exposure device. | 2014-10-02 |
20140295547 | METHOD TO CONSTRUCT IN-VITRO HUMAN BLOOD BRAIN BARRIER MODEL - A method to construct an in-vitro human blood brain barrier (BBB) model is disclosed, which comprises steps: attaching suspension liquids of human brain vascular pericytes (HBVPs) and human astrocytes (HAs) by a ratio of 1:1, 1:2, or 1:6 to a bottom surface of a filter membrane of a culture dish to plant HBVPs and HAs on the bottom surface; filling a suspension liquid of human brain microvascular endothelial cells (HBMECs) into a top surface of the filter membrane to plant HBMECs on the top surface; placing the culture dish in a well plate containing a culture medium, and placing the well plate in a carbon-dioxide incubator; replacing the culture medium with a condition medium; and replacing the condition medium once daily for a plurality of days. Thereby is constructed an in-vitro human BBB model of high medical research availability. | 2014-10-02 |
20140295548 | BIOARTIFICIAL LIVER SYSTEM - A bioartificial liver system is described that incorporates a cell reservoir and hepatocyte spheroids to both increase the number of and longevity of cells in the system. Additional methods are also described for forming spheroid aggregates from isolated hepatocytes. | 2014-10-02 |
20140295549 | METHODS AND COMPOSITIONS FOR INDUCING APOPTOSIS BY STIMULATING ER STRESS - The present invention provides a method for inducing apoptosis in selected cells by aggravating ER-stress. The aggravation of ER-stress is achieved in a specific manner by inhibiting SERCA (sarcoplasmic/endoplasmic reticulum calcium ATPase), leading to elevated level of cytoplasmic calcium concentration, yet without inhibiting the activity of COX-2 (cyclooxygenase-2) or triggering the release of histamine. Induction of apoptosis may be enhanced by first inducing or further aggravating ER-stress through inhibition of proteasome or proteases. Also provided are compounds and compositions useful as ER-stress aggravating agents, methods for screening, selecting, identifying and designing the same and methods for treating diseased conditions by inducing apoptosis through specific and selective aggravation of ER-stress. | 2014-10-02 |
20140295550 | HLA PEPTIDE THERAPY - The invention provides polypeptides derived from a major histocompatibility complex (MHC) class I human leukocyte antigen (HLA), such as HLA-A2, and derivatives or analogues thereof. The polypeptides, derivatives and analogues can be used to treat or prevent allosensitisation, such as the treatment or prevention of allograft rejection. | 2014-10-02 |
20140295551 | Protein markers associated bone marrow stem cell differentiation into early progentior cells - A novel cytosolic 58 kd phosphoprotein induced during bone marrow stem cell (BM) differentiation into dendritic cells (DC) during in vitro cultivation with the cytokine GM-CSF by addition of antisera to an 82 kd BM cell surface protein generating cultivatable dendritic progenitor cells (DP). Genes, methods for preparing them as well as early DP have been provided. Potential uses/advantages lie in the study of BM differentiation and innate immunity due to stimulatory/inhibitory DC, contribution of BM and DP to inflammation during infection and carcinogenesis, tumor promotion/regression, identification of BM-derived blood cells, T-cell activation/regulation/tolerance and inflammation. | 2014-10-02 |
20140295552 | SUSPENSION AND CLUSTERING OF HUMAN PLURIPOTENT STEM CELLS FOR DIFFERENTIATION INTO PANCREATIC ENDOCRINE CELLS - The present invention provides methods of preparing aggregated pluripotent stem cell clusters for differentiation. Specifically, the invention discloses methods of differentiating pluripotent cells into beta cell, cardiac cell and neuronal cell lineages using suspension clustering. The methods involve preparing the aggregated cell clusters followed by differentiation of these clusters. | 2014-10-02 |
20140295553 | IN-VITRO CELL COLONY CULTURE DEVICE AND USE THEREOF - Provided are an in-vitro cell colony culture device and use thereof, the in-vitro cell colony culture device comprising: a micro-patterned template having a micro-patterned cavity, and adhesive hydrogel formed on the lower surface of the micro-patterned template, and the micro-patterned cavity defining the growth space of the cell colony. An upper template can be retained or removed as required to from a monolayer cell micro-pattern or a multiplayer cell micro-cluster. | 2014-10-02 |
20140295554 | METHOD FOR MANUFACTURING UMBILICAL CORD EXTRACT AND USAGE OF THE SAME - The present invention provides a method for effectively extracting useful ingredients from an umbilical cord. The present invention provides an umbilical cord extract including the useful ingredients. The umbilical cord extract, according to the present invention, can be used as a serum substitute for cultivating ordinary cells and stem cells from an animal. Also, the umbilical cord extract, according to the present invention, can be used for a filler and a dressing for tissue restoration, and for a cosmetic composition for improving the skin. In addition, the present invention relates to a composition for a medium for separating and stem cells derived from tissue, such as an umbilical cord and fatty tissue, and to a method for separating and cultivating stem cells derived from the tissue using the same. | 2014-10-02 |
20140295555 | METHOD OF CULTURING CELLS - A blood component such as platelets is concentrated. The concentrate, such as platelet-rich plasma, is used in a cell culture medium to grow and proliferate cells. The cells may be from the same person from which the blood concentrate is obtained. The cells grown in the culture medium may be used to treat a patient which may be the same patient from which the blood was extracted and/or the cells were obtained. | 2014-10-02 |
20140295556 | Using RNA-guided FokI Nucleases (RFNs) to Increase Specificity for RNA-Guided Genome Editing - Methods for increasing specificity of RNA-guided genome editing, e.g., editing using CRISPR/Cas9 systems. | 2014-10-02 |
20140295557 | Using Truncated Guide RNAs (tru-gRNAs) to Increase Specificity for RNA-Guided Genome Editing - Methods for increasing specificity of RNA-guided genome editing, e.g., editing using CRISPR/Cas9 systems, using truncated guide RNAs (tru-gRNAs). | 2014-10-02 |
20140295558 | METHOD AND APPARATUS FOR DELIVERY OF MOLECULES TO CELLS - The present invention is concerned with a system and method for introducing a substance into cells. The system has an assembly including a plurality of elongate non-hollow nanoneedles forming a nanoneedle array or patch for delivering the substance into the cells, at least some of the nanoneedles have a non-uniform diameter with a wider upper end, a narrower lower end for penetration into the cells and a length from substantially 200 nm to 100 um. The lower end has a diameter from substantially 20-436 nm. Adjacent nanoneedles are spaced apart by substantially 5-50 um. The nanoneedles are made from a material selected from the group consisting of diamond, cubic boron nitride, carbon nitride, boron nitride, boron carbon nitride, metal borides and essentially boron materials, allowing the nanoneedles to maintain sufficient thinness and yet adequate rigidity during penetration. The nanoneedles are applied onto the cells grown on substrates at a preferred rate from 1 to 5 m/s. Alternatively, the nanoneedles are applied onto the cells grown on substrates by centrifugation force from 0.5 to 10 nN. Yet alternatively, the cells suspended in a fluid are applied to the nanoneedle array at a rate of 1 to 10 m/s. | 2014-10-02 |
20140295559 | METHOD FOR PREDICTION OF INHIBITION DURABILITY INDEX OF SHALE INHIBITORS AND INHIBITIVE DRILLING MUD SYSTEMS - Embodiments of a method used for determination of inhibition durability index (IDI) of an inhibitive mud system can include multiple stages, with each stage including specific steps. The first stage can include a dispersion test that evaluates the inhibition effects of a stability inhibitor after exposing the test material to the inhibitor. The second stage can include a durability inhibition assessment, which includes assessing the longevity of the effect of the inhibitor. A third stage can be used to graph or otherwise evaluate the results of the second stage or the first and second stages. | 2014-10-02 |
20140295560 | Device and Method For Predicting Corrosion - The present disclosure provides a device for predicting corrosion in a tubular element that receives hydrocarbons. The device includes a housing, a first sensor, and a location tracking device. The first sensor is partially within the housing and detects one of first physical, chemical and electrical signals of a fluid within the tubular element at a plurality of locations within the tubular element. The location tracking device is within the housing and operatively connected to the first sensor. The location tracing device determines an axial and circumferential position of the first sensor at each of the plurality of locations. | 2014-10-02 |
20140295561 | MOISTURE INDICATOR FOR WOOD SUBSTRATES - A moisture content indicator for visually indicating the moisture content of a wood substrate and methods of making the moisture content indicator are provided. | 2014-10-02 |
20140295562 | SAMPLE ANALYZER AND METHOD FOR LOADING REAGENT CONTAINER - Disclosed is a sample analyzer, comprising: a container storage configured to store a plurality of reagent containers; a setting chamber including within a setting portion on which at least one reagent container is set; a container detector for detecting the reagent container on the setting portion; a gate to open and close an entrance of the setting chamber; a transferring section configured to hold the reagent container on the setting portion and transfer it to the container storage; and a controller programmed to initiate the transferring section to transfer the reagent container from the setting portion to the container storage if the reagent container is set on the setting portion when the entrance of the setting chamber is closed by the gate. | 2014-10-02 |
20140295563 | ANALYZER AND ANALYZING METHOD - There is provided an analyzer capable of stably supplying the cuvettes even if a great number of cuvettes is input to the storage section without thinking. The analyzer includes a storage section configured to store the plurality of input cuvettes, a take-out section configured to take out the cuvettes in the storage section from the storage section, and a vibration unit configured to vibrate the storage section to stimulate movement of the cuvettes in the storage section. | 2014-10-02 |
20140295564 | GEL DOSIMETER FOR MEASURING RADIATION DOSAGE AND MANUFACTURING METHOD THEREFOR - To measure three-dimensional dose distributions with a dosimeter, such as a gel dosimeter. In an embodiment of the present invention, provided is a gel dosimeter having water, as solvent or disperse medium, clay particles that swell with water, and recording material precursor, which are dissolved or dispersed with each other. The recording material precursor has an atom or ion, wherein the atom or ion changes its valence number by reacting with both of a radical and a molecular radical derivative. The radical is to be generated from the water ionized by irradiation of radiation rays, and the molecular radical derivative is a molecule to be formed by bonding the radicals with each other. By the time radiation rays are irradiated, the gel dosimeter has been free from a substance identical to the molecular radical derivative and has lost fluidity. | 2014-10-02 |
20140295565 | Surface Energy Gradient Films for Analytical Devices - A device comprising a channel comprising at least one surface wherein the surface comprises a fluid-impervious base surface covered by a coating beginning at a proximal location and ending at a distal location along the at least one surface of the channel, the coating forming a surface energy gradient from the proximal location to the distal location on the surface, wherein the coating comprises a species having a functional group M1 and a species having a functional group M2 where M1 and M2 have different surface energies, wherein the functional group M2 comprises an amide or amine group, and the concentration of the species comprising functional group M2 in the coating increases relative to the concentration of the species comprising functional group M1 from the proximal location to the distal location on the surface. | 2014-10-02 |
20140295566 | CARBOHYDRATE-LIGAND CONJUGATES AND THEIR APPLICATION FOR THE ANALYSIS OF CARBOHYDRATE-PROTEIN INTERACTION - A novel ligand conjugate which is effectively utilizable for analyzing a function of a protein; a ligand-supporting object; and a method of analyzing a protein. The ligand conjugate has a structure which comprises: a linker compound having a structure represented by the following General Formula (1): | 2014-10-02 |
20140295567 | METHOD FOR DETECTING NUCLEIC ACID USING INTERCALATOR-CONJUGATED METAL NANOPARTICLES - The present invention relates to a method for detecting nucleic acid using intercalator-conjugated metal nanoparticles. More particularly, the present invention relates to a method which involves applying a sample containing a target nucleic acid to a DNA chip having a substrate with a DNA probe fixed thereon, reacting metal nanoparticles in which intercalators coupled with a double helix nucleic acid are conjugated, and reacting a metal enhancing solution to thereby amplify the sizes of the metal nanoparticles and detect the target nucleic acid using the unaided eye. The method for detecting nucleic acid according to the present invention uses intercalator-conjugated metal nanoparticles, and thus enables detection of nucleic acid using the unaided eye without any other equipment. Therefore, compared with conventional detection methods, the present invention exhibits the effects of reducing analysis costs and the time needed for detection, and enables miniaturization of the size of an apparatus, thereby enabling field diagnosis in a livestock farm, home, or the like. | 2014-10-02 |
20140295568 | REAGENT FOR DETECTION AND ASSESSMENT OF TOTAL CHLORINE IN AQUEOUS SOLUTION - Provided is a heat dried reagent composition that is dry, methods of making it, and methods of using it. The heat dried reagent composition can be characterized by one or more of: stability to the heat drying conditions; storage stability of the heat dried reagent composition; fast rehydration time; rapid assay kinetics; and assay precision. The reagent composition is useful for detecting and/or assessing total chlorine in an aqueous sample, such as pool water. | 2014-10-02 |
20140295569 | REAGENT FOR DETECTION AND ASSESSMENT OF FREE CHLORINE IN AQUEOUS SOLUTION - Provided is a heat dried reagent composition that is dry, methods of making it, and methods of using it. The heat dried reagent composition can be characterized by one or more of stability to the heat drying conditions; storage stability of the heat dried reagent composition; fast rehydration time; rapid assay kinetics; and assay precision. The reagent composition is useful detecting and/or assessing free chlorine in an aqueous sample, such as pool water. | 2014-10-02 |
20140295570 | IN SITU HEATED PROCESS PROBE - A process combustion transmitter is provided. The transmitter includes a process probe extendible into a flow of process combustion exhaust. The process probe has a measurement cell with an operating temperature that is above a flashpoint of process combustion fuel. The process probe includes a heater configured to heat the measurement cell to the operating temperature. Electronic circuitry is coupled to the measurement cell and to the heater. The electronic circuitry is configured to disengage power to the heater once process combustion heat is sufficient to maintain the measurement cell at the operating temperature and thereafter to maintain the heater in a de-energized state. | 2014-10-02 |
20140295571 | METHOD AND ASSEMBLY FOR DETERMINING THE TEMPERATURE OF A TEST SENSOR - An assembly determines an analyte concentration in a sample of body fluid. The assembly includes a test sensor having a fluid-receiving area for receiving a sample of body fluid, where the fluid-receiving area contains a reagent that produces a measurable reaction with an analyte in the sample. The assembly also includes a meter having a port or opening configured to receive the test sensor; a measurement system configured to determine a measurement of the reaction between the reagent and the analyte; and a temperature-measuring system configured to determine a measurement of the test-sensor temperature when the test sensor is received into the opening. The meter determines a concentration of the analyte in the sample according to the measurement of the reaction and the measurement of the test-sensor temperature. | 2014-10-02 |
20140295572 | MANIPULATION OF FLUIDS AND REACTIONS IN MICROFLUIDIC SYSTEMS - Microfluidic structures and methods for manipulating fluids and reactions are provided. Such structures and methods may involve positioning fluid samples, e.g., in the form of droplets, in a carrier fluid (e.g., an oil, which may be immiscible with the fluid sample) in predetermined regions in a microfluidic network. In some embodiments, positioning of the droplets can take place in the order in which they are introduced into the microfluidic network (e.g., sequentially) without significant physical contact between the droplets. Because of the little or no contact between the droplets, there may be little or no coalescence between the droplets. Accordingly, in some such embodiments, surfactants are not required in either the fluid sample or the carrier fluid to prevent coalescence of the droplets. Structures and methods described herein also enable droplets to be removed sequentially from the predetermined regions. | 2014-10-02 |
20140295573 | BIOSENSOR WITH DUAL GATE STRUCTURE AND METHOD FOR DETECTING CONCENTRATION OF TARGET PROTEIN IN A PROTEIN SOLUTION - A biosensor with a dual gate structure is disclosed herein. The biosensor comprises: a transistor, a sensing pad, and a plurality of nanostructures. The sensing pad has a conductive area working as another gate and neighboring to the channel layer of the transistor, and a sensing area extended outward from the conductive area to be far away from the channel layer of the transistor, wherein the gate and the conductive area of the sensing pad are separated from each other by the channel layer. The plurality of nanostructures are utilized to bind a first protein to generate a drain current value, when the first protein is combined with the target protein and another drain current value is generated, whereby a variation between the two drain current values is calculated to obtain the concentration of the target protein in the protein solution. | 2014-10-02 |
20140295574 | Method of Fabricating Testing Reagent Carrier through Ionizing Radiation - A method is provided for modifying a radioactive carbon nanotube (CNT) carrier. Magnetic molecules are used. The modified CNT is highly specified to disease. Surface of the CNT has functional grafts for catching antigen/antibody. Antigen/antibody thus caught on the surface is increased in number. Thus, the present invention improves sensitivity and accuracy of disease detection and greatly saves cost. The present invention can be applied for sample purification or massive disease detection. | 2014-10-02 |
20140295575 | ZWITTERION-CONTAINING ACRIDINIUM COMPOUNDS - Hydrophilic, chemiluminescent acridinium compounds containing zwitterions are disclosed. These acridinium compounds, when used as chemiluminescent labels in immunochemistry assays and the like, exhibit decreased non-specific binding to solid phases and provide increased assay sensitivity. | 2014-10-02 |
20140295576 | INSOLUBLE CARRIER FOR USE IN ANTI-PHOSPHOLIPID ANTIBODY MEASUREMENT REAGENT, ANTI-PHOSPHOLIPID ANTIBODY MEASUREMENT REAGENT, AND METHOD FOR MEASURING ANTI-PHOSPHOLIPID ANTIBODY - The present invention has an object to provide an insoluble carrier for an antiphospholipid antibody detection reagent having a high reactivity. The present invention also has an object to provide an antiphospholipid antibody detection reagent, and a method of detecting an antiphospholipid antibody. The present invention directs to an insoluble carrier for an antiphospholipid antibody detection reagent, having a zeta potential of lower than −45 mV in the case that the insoluble carrier is suspended in a 20 mmol/L aqueous sodium phosphate solution with a pH of 7.4 so that the resulting suspension has a solids concentration of 0.1%. | 2014-10-02 |
20140295577 | CHEMICAL SENSOR, CHEMICAL SENSOR MODULE, BIOMOLECULE DETECTION APPARATUS, AND BIOMOLECULE DETECTION METHOD - [Object] To provide a chemical sensor capable of detecting a biomolecule with high accuracy, a chemical sensor module, a biomolecule detection apparatus, and a biomolecule detection method. | 2014-10-02 |
20140295578 | SYSTEMS FOR IMMUNOASSAY TESTS - This invention relates to a cartridge for an immunoassay test. The cartridge comprises (a) a probe well comprising a probe and a cap, the cap being in a closed position to enclose the probe in the probe well, wherein the probe has a bottom tip coated with analyte-binding molecules, (b) a sample well to receive a sample, (c) one or more reagent wells, (d) a plurality of wash wells each containing a first aqueous solution, and (e) a measurement well having a light transmissive bottom, the measurement well containing a second aqueous solution, wherein the openings of the sample well, reagent well, measurement well and wash wells are sealed. The present invention also relates to an apparatus for loading and releasing a probe. The apparatus comprises a push pin and a groove to load and transfer the probe to a plurality of locations, such as different wells in the above-mentioned cartridge, to conduct the immunoassay test. | 2014-10-02 |
20140295579 | METHOD OF PATTERNING MTJ STACK - This invention comprises methods to form isolated magnetic tunneling junction (MTJ) memory element with small footprint using oxygen-ion implantation. After patterned resist is form on an MTJ film, the substrate is subject to a series of ion implantations outside the mask areas to subsequently implant Mg and oxygen ions into the exposed MTJ junction region, followed by high temperature rapid thermal annealing. Using such a process, implanted oxygen ions, Mg ions and non-oxidized Mg atoms in MTJ stack form highly resistive MgO crystalline and the ion implanted area is converted into electrically insulated metal oxide, creating a shape well-defined MTJ memory element with ultra-small dimensions and vertical edges. | 2014-10-02 |
20140295580 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE AND MANUFACTURING APPARATUS - A method for manufacturing a semiconductor device includes accommodating in a processing chamber a semiconductor structural body having a semiconductor substrate and a laminated structure formed on the semiconductor substrate and having multiple metal films including a noble-metal film, and generating a bias voltage on the semiconductor substrate while generating an oxygen plasma in the processing chamber such that a plasma treatment removes at least part of the noble-metal film in the laminated structure of the semiconductor structural body. | 2014-10-02 |
20140295581 | METHOD AND APPARATUS TO FABRICATE VIAS IN THE GaN LAYER OF GaN MMICS - The method and apparatus to fabricate vias in the gallium nitride (“GaN”) layer of a GaN monolithic microwave integrated circuit (“MMIC”). The method and apparatus create vias in the GaN layer of a GaN MMIC through the use of controlled laser ablation and spectroscopic analysis of SiC and CVD diamond MMICs. The use of spectroscopic measurements helps to control the ablation by detecting a change in layers, including the GaN layer. The method and apparatus uses short pulse length, short wavelength, and a lower threshold intensity to remove material without undue heating or damage to the surrounding areas while retaining depth control. | 2014-10-02 |
20140295582 | Controlling the Device Performance by Forming a Stressed Backside Dielectric Layer - A device includes a p-type metal-oxide-semiconductor (PMOS) device and an n-type metal-oxide-semiconductor (NMOS) device at a front surface of a semiconductor substrate. A first dielectric layer is disposed on a backside of the semiconductor substrate. The first dielectric layer applies a first stress of a first stress type to the semiconductor substrate, wherein the first dielectric layer is overlying the semiconductor substrate and overlapping a first one of the PMOS device and the NMOS device, and is not overlapping a second one of the PMOS device and the NMOS device. A second dielectric layer is disposed on the backside of the semiconductor substrate. The second dielectric layer applies a second stress to the semiconductor substrate, wherein the second stress is of a second stress type opposite to the first stress type. The second dielectric layer overlaps a second one of the PMOS device and the NMOS device. | 2014-10-02 |
20140295583 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - In a plasma processing method and apparatus for processing a film to be processed contained in a film structure preliminarily formed on an upper surface of a wafer mounted in a processing chamber, by using plasma, a residual film thickness at an arbitrary time is calculated using a result of comparing detective differential waveform pattern data with actual differential waveform pattern data. The detective differential waveform pattern data is produced by using two basic differential waveform pattern data which respectively use, as parameters, residual thicknesses of the films to be processed in film structures having underlying films with different thicknesses and the wavelengths of the interference light. The detective waveform pattern data being preliminarily prepared prior to processing of the wafer. Determination is made as to whether or not an object of the processing has been reached by using the residual film thickness. | 2014-10-02 |
20140295584 | LOW ENERGY COLLIMATED ION MILLING OF SEMICONDUCTOR STRUCTURES - A method of delayering a surface of a semiconductor structure may include applying a voltage in the range of about 50 eV to less than 300 eV to an inductively coupled Argon ion source operating at a radio frequency. A collimated ion beam incident on the surface of the semiconductor structure may be generated, from the Argon ion source, for the planar removal of layers of the surface. A structural material underlying the surface of the semiconductor structure is exposed using an end-point detector based on the planar removal of the layers. | 2014-10-02 |
20140295585 | TAILORABLE FLEXIBLE SHEET OF MONOLITHICALLY FABRICATED ARRAY OF SEPARABLE CELLS EACH COMPRISING A WHOLLY ORGANIC, INTEGRATED CIRCUIT ADAPTED TO PERFORM A SPECIFIC FUNCTION - A flexible sheet of organic polymer material, may include a monolithically fabricated array of one or more types of cells juxtaposed among them to form a multi-cell sheet. Each cell may include a self consistent, organic base integrated circuit, replicated in each cell of same type of the array, and shares, in common with other cells of same type, at least a conductor layer of either an electrical supply rail of the integrated circuit or of an input/output of the integrated circuit. A piece of the multi-cell, sheet including any number of self consistent integrated circuit cells, may be severed from the multi-cell sheet by cutting the sheet along intercell boundaries or straight lines, with a reduced affect on the operability of any cell spared by the cutting. | 2014-10-02 |
20140295586 | MANUFACTURING METHOD FOR FLEXIBLE DISPLAY DEVICE - A method of manufacturing a flexible display device, the method including depositing a separation layer on a supporting substrate; depositing a display panel on the separation layer; cutting the display panel to have a predetermined shape; cutting the supporting substrate and the separation layer to have a wider area than an area where the display panel, that is cut with the predetermined shape, contacts the supporting substrate and the separate layer; and separating the separate layer and the display panel from each other. | 2014-10-02 |
20140295587 | DONOR SUBSTRATE AND METHOD OF FORMING TRANSFER PATTERN USING THE SAME - A donor substrate includes a base substrate; a light reflection layer disposed on the base substrate and overlapped with a portion of the base substrate, a heat blocking pattern disposed on the light reflection layer, overlapped with the light reflection layer, and including a plurality of air holes; a light-to-heat conversion layer disposed on the base substrate; and a transfer layer disposed on the light-to-heat conversion layer. | 2014-10-02 |
20140295588 | METHOD OF FORMING LIGHT-EMITTING DIODE - A method of forming a light-emitting diode includes: providing a substrate having one or more first openings passing through the substrate; forming a sacrificial layer on the substrate; forming an epitaxial layer on the sacrificial layer; connecting a supporting substrate with the epitaxial layer; and separating the substrate from the epitaxial layer by selectively etching the sacrificial layer. | 2014-10-02 |
20140295589 | OPTOELECTRONIC COMPONENT AND METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT - An optoelectronic component includes a semiconductor layer sequence having an optoelectronically active region; a dielectric layer on the semiconductor layer sequence; and a metal layer on the dielectric layer, wherein an adhesion layer is arranged between the dielectric layer and the metal layer, the adhesion layer being covalently bonded to the dielectric layer and to the metal layer. | 2014-10-02 |
20140295590 | METHOD OF FABRICATING LIGHTWEIGHT AND THIN LIQUID CRYSTAL DISPLAY DEVICE - Disclosed is a method for fabricating a lightweight and thin liquid crystal display (LCD) device, using a supplementary substrate for processing of a thin glass substrate. Inactive gas is sprayed onto the surface of the substrate to thus remove OH groups from the surface, before the thin glass substrate and the supplementary substrate are attached to each other. Under such configuration, the supplementary substrate can be easily separated from a completed liquid crystal panel which is in an attached cell state, without any damages. | 2014-10-02 |
20140295591 | METHOD OF MANUFACTURING LIGHT-EMITTING DEVICE - A method of manufacturing a light-emitting device includes providing a case including an annular sidewall and an LED chip including a chip substrate and a crystal layer and mounted in a region surrounded by the sidewall of the case, and dripping a droplet of an electrically-charged phosphor-containing resin so as to fill a space between the sidewall and the LED chip. The droplet is attracted toward the sidewall by an electrostatic force during the dripping. | 2014-10-02 |
20140295592 | BAT-WING LENS DESIGN WITH MULTI-DI - A batwing beam is produced from an optical emitter having a primary LED lens over a number of LED dies on a package substrate. The LED lens includes a batwing surface formed by rotating a parabolic arc about an end of the parabolic arc over a center of the optical emitter. A center of each of the LED dies is mounted to the package substrate about the focus of a parabola whose arc forms the batwing surface, for example, between about 0.5 to 1.5 of a focal distance from the vertex of the parabola. The batwing surface reflects light from the number of LED dies through total internal reflection (TIR) or through a reflectivity gel coating. | 2014-10-02 |
20140295593 | METHOD AND APPARATUS FOR FABRICATING PHOSPHOR-COATED LED DIES - The present disclosure involves a method. The method includes providing a substrate having a layer disposed thereon. A plurality of light-emitting devices is attached to the layer. A gel is applied over the substrate. The gel covers the plurality of light-emitting devices. The gel is shaped into a plurality of lenses. The lenses each cover a respective one of the light-emitting devices. The light-emitting devices are separated from one another. The substrate and the layer are removed. | 2014-10-02 |
20140295594 | DISCONTINUOUS PATTERNED BONDS FOR SEMICONDUCTOR DEVICES AND ASSOCIATED SYSTEMS AND METHODS - Discontinuous bonds for semiconductor devices are disclosed herein. A device in accordance with a particular embodiment includes a first substrate and a second substrate, with at least one of the first substrate and the second substrate having a plurality of solid-state transducers. The second substrate can include a plurality of projections and a plurality of intermediate regions and can be bonded to the first substrate with a discontinuous bond. Individual solid-state transducers can be disposed at least partially within corresponding intermediate regions and the discontinuous bond can include bonding material bonding the individual solid-state transducers to blind ends of corresponding intermediate regions. Associated methods and systems of discontinuous bonds for semiconductor devices are disclosed herein. | 2014-10-02 |
20140295595 | OPTICAL DEVICE STRUCTURE USING GaN SUBSTRATES FOR LASER APPLICATIONS - An optical device includes a gallium nitride substrate member having an m-plane nonpolar crystalline surface region characterized by an orientation of about −1 degree towards (000-1) and less than about +/−0.3 degrees towards (11-20). The device also has a laser stripe region formed overlying a portion of the m-plane nonpolar crystalline orientation surface region. In a preferred embodiment, the laser stripe region is characterized by a cavity orientation that is substantially parallel to the c-direction, the laser stripe region having a first end and a second end. The device includes a first cleaved c-face facet, which is coated, provided on the first end of the laser stripe region. The device also has a second cleaved c-face facet, which is exposed, provided on the second end of the laser stripe region. | 2014-10-02 |
20140295596 | METHOD FOR IMPROVING THE REFLECTIVITY OF ALUMINUM IN OLED STRUCTURE - The present disclosure discloses a method for improving the reflectivity of aluminum in OLED structure. The OLED structure includes a top ITO layer, a middle reflective layer made by aluminum and a bottom ITO layer. The method comprises; forming a bottom ITO layer; coating the aluminous reflective layer on the surface of the bottom ITO layer and forming an aluminum oxide layer on the surface of the aluminous reflective layer uniformly by introducing plenty of oxygen gas simultaneously; adjusting the velocity of coating the aluminous reflective until the aluminum oxide layer is formed; and forming an top ITO layer on the surface of the aluminum oxide layer. The present disclosure can repair and cover the defects on the surface of the metal aluminum film and can reduce the concavities and hillocks on the surface of the metal aluminum film. Consequently, the reflectivity of aluminum in OLED structure is improved. | 2014-10-02 |
20140295597 | FABRICATION METHOD FOR ORGANIC EL DEVICE - The fabrication method for an organic EL device according to the invention includes: forming a third insulating layer on a first insulating layer; removing the third insulating layer in a first pixel region by etching the third insulating layer; forming a second insulating layer that has different thicknesses in a first pixel and a second pixel and has a flat first surface by forming a precursor insulating layer to continuously cover a first reflection film and a second reflection film and then planarizing an upper surface of the precursor insulating layer; and forming a first pixel electrode and a second pixel electrode on the first surface of the second insulating layer. The first insulating layer is slower in the rate at which the layer is removed by etching than the third insulating layer. | 2014-10-02 |
20140295598 | SEMICONDUCTOR LIGHT EMITTING ELEMENT FABRICATION METHOD - A method of fabricating a plurality of light emitting elements includes forming a nitride semiconductor layer on a growth substrate, the nitride semiconductor layer including at least an n-type nitride semiconductor layer, an active layer made of a nitride semiconductor, and a p-type nitride semiconductor layer stacked in this order; forming a p-electrode layer, the p-electrode layer including portions that correspond to the light emitting elements; forming a p-passivation layer that includes portions between the portions of the p-electrode layer formed on the upper surface of the nitride semiconductor layer; forming a seed layer on the p-electrode layer and the p-passivation layer; forming an insulating layer having portions formed on an upper surface of the seed layer; forming a plating layer on the seed layer; and forming a plating substrate by removing the insulating layer to form spaces between portions of the plating layer. | 2014-10-02 |
20140295599 | ETCHANT, DISPLAY DEVICE AND METHOD FOR MANUFACTURING DISPLAY DEVICE USING THE SAME - An etchant includes: 5 to 20 wt % of persulfate, 1 to 10 wt % of at least one compound of an inorganic acid, an inorganic acid salt, or a mixture thereof, 0.3 to 5 wt % of a cyclic amine compound, 1 to 10 wt % of at least one compound of an organic acid, an organic acid salt, or a mixture thereof, 0.1 to 5 wt % of p-toluenesulfonic acid, and water, based on the total weight of the etchant. A copper-titanium etchant further includes 0.01 to 2 wt % of a fluoride-containing compound. A method of forming a display device using the etchant, and a display device, are also disclosed. | 2014-10-02 |
20140295600 | EVAPORATION SOURCE ASSEMBLY, FILM DEPOSITION DEVICE AND FILM DEPOSITION METHOD - An evaporation source assembly used for depositing film on a substrate is provided, the evaporation source assembly comprises: a body comprising a top element, a bottom element and side walls defining a hollow chamber together, the bottom element comprises a plurality of inlet openings communicating with the chamber; a plurality of nozzles located at the top element and communicate with the chamber; a plurality of evaporators for containing and evaporating the evaporating material, which are positioned below the body and correspond to inlet openings respectively; each evaporator has an opening through which the evaporators is connected with corresponding inlet openings; and a plurality of connecting pipes for connecting the opening of the evaporators with the inlet openings, the connecting pipes are tapered pipes with a broad top and a narrow bottom to improve the vapor pressure of the evaporating material in the body to reach pressure balance. | 2014-10-02 |
20140295601 | METHOD OF FORMING ORGANIC LIGHT EMITTING PATTERN AND APPARATUS FOR FORMING ORGANIC LIGHT EMITTING PATTERN OF ORGANIC ELECTRO-LUMINESCENCE DISPLAY USING SUBLIMATION TYPE THERMAL TRANSFER METHOD - A method of forming an organic light emitting pattern of an organic electro-luminescence display according to an exemplary embodiment of the present invention includes preparing a display substrate in which a region where a first organic light emitting material is to be formed is defined, preparing a temporal transfer substrate (TTS) that is a transfer subject on which the first organic light emitting material is to be transferred, forming the first organic light emitting material on the temporal transfer substrate, applying heat to a portion other than a first region of the temporal transfer substrate to remove the first organic light emitting material formed on the portion other than the first region, disposing the temporal transfer substrate and the display substrate to closely face each other, and applying heat to the temporal transfer substrate to transfer the organic light emitting material on the display substrate. | 2014-10-02 |
20140295602 | SEMICONDUCTOR LIGHT EMITTING DEVICE, NITRIDE SEMICONDUCTOR LAYER, AND METHOD FOR FORMING NITRIDE SEMICONDUCTOR LAYER - According to an embodiment, a semiconductor light emitting device includes a foundation layer, a first semiconductor layer, a light emitting layer, and a second semiconductor layer. The foundation layer has an unevenness having recesses, side portions, and protrusions. A first major surface of the foundation layer has an overlay-region. The foundation layer has a plurality of dislocations including first dislocations whose one ends reaching the recess and second dislocations whose one ends reaching the protrusion. A proportion of a number of the second dislocations reaching the first major surface to a number of all of the second dislocations is smaller than a proportion of a number of the first dislocations reaching the first major surface to a number of all of the first dislocations. A number of the dislocations reaching the overlay-region of the first major surface is smaller than a number of all of the first dislocations. | 2014-10-02 |
20140295603 | METHOD FOR PRODUCING ORGANIC ELECTROLUMINESCENCE ELEMENT - A method is provided for producing an organic EL element having excellent electric properties in a relatively low cost. The method includes the steps of using a vapor deposition apparatus | 2014-10-02 |
20140295604 | P-Type Transition Metal Oxide-Based Films Serving as Hole Transport Layers in Organic Optoelectronic Devices - An improvement in a method of making a semiconducting device having a hole-collecting electrode includes coating the hole-collecting electrode with a p-type transition metal oxide through a sol-gel process. | 2014-10-02 |
20140295605 | METHOD OF FABRICATING A CAPACITIVE ENVIRONMENT SENSOR - A method for fabrication of capacitive environment sensors is provided in which the sensor elements are integrated in a CMOS structure with electronics through the use of complementary metal oxide semiconductor (CMOS) fabrication methods. Also provided are environment sensors fabricated, for example, by the method, and a measurement system using the environment sensors fabricated by the method. The described method includes etching away one of the metal layers in a CMOS chip to create a cavity. This cavity is then filled with an environment-sensitive dielectric material to form a sensing capacitor between plates formed by the metal adhesion layers or an array of contacts from other metal layers of the CMOS structure. This approach provides improved sensing capabilities in a system that is easily manufactured. | 2014-10-02 |
20140295606 | METHOD FOR PRODUCING A DEVICE COMPRISING CAVITIES FORMED BETWEEN A SUSPENDED ELEMENT RESTING ON INSULATING PADS SEMI-BURIED IN A SUBSTRATE AND THIS SUBSTRATE - A method for producing a device including plural cavities defined between a substrate in at least one given semiconductor material and a membrane resting on a top of insulating posts projecting from the substrate, the method allowing a height of the cavity or cavities to be adapted independently of a height of the insulating posts and allowing cavities of different heights to be formed. | 2014-10-02 |
20140295607 | METHOD OF FORMING CONTACTS FOR A BACK-CONTACT SOLAR CELL - Methods of forming contacts for solar cells are described. In one embodiment, a method includes forming a silicon layer above a substrate, forming and patterning a solid-state p-type dopant source on the silicon layer, forming an n-type dopant source layer over exposed regions of the silicon layer and over a plurality of regions of the solid-state p-type dopant source, and heating the substrate to provide a plurality of n-type doped silicon regions among a plurality of p-type doped silicon regions. | 2014-10-02 |
20140295608 | METHOD OF FORMING EMITTERS FOR A BACK-CONTACT SOLAR CELL - Methods of forming emitters for back-contact solar cells are described. In one embodiment, a method includes forming a first solid-state dopant source above a substrate. The first solid-state dopant source includes a plurality of regions separated by gaps. Regions of a second solid-state dopant source are formed above the substrate by printing. | 2014-10-02 |
20140295609 | SOLAR CELL EMITTER REGION FABRICATION USING SILICON NANO-PARTICLES - Methods of fabricating solar cell emitter regions using silicon nano-particles and the resulting solar cells are described. In an example, a method of fabricating an emitter region of a solar cell includes forming a region of doped silicon nano-particles above a dielectric layer disposed above a surface of a substrate of the solar cell. A layer of silicon is formed on the region of doped silicon nano-particles. At least a portion of the layer of silicon is mixed with at least a portion of the region of doped silicon nano-particles to form a doped polycrystalline silicon layer disposed on the dielectric layer. | 2014-10-02 |
20140295610 | SPECTROSCOPIC SENSOR AND METHOD FOR MANUFACTURING SAME - A method for manufacturing a spectroscopic sensor includes: (a) forming a light receiving element on a semiconductor substrate; (b) forming an angle restricting filter on the semiconductor substrate; and (c) forming a spectroscopic filter on the angle restricting filter. The step (c) of forming a spectroscopic filter includes: (c1) forming a first light transmitting film having a peripheral edge that overlaps a light blocking portion in plan view ox the semiconductor substrate by a lift-off method; and (c2) forming a second light transmitting film at a position spaced apart from the first light transmitting film in plan view of the semiconductor substrate by the lift-off method, the second light transmitting film having a peripheral edge that overlaps the light blocking portion in plan view of the semiconductor substrate. | 2014-10-02 |
20140295611 | METHOD AND DEVICE FOR INDUSTRIALLY PRODUCING PHOTOVOLTAIC CONCENTRATOR MODULES - The invention relates to a device for industrially producing photovoltaic concentrator modules which consist of a module frame, a lens pane comprising a plurality of Fresnel lenses, a sensor-carrier pane, and an electric line guide, said device comprising the following features: a) a carriage ( | 2014-10-02 |
20140295612 | SOLAR CELL AND MANUFACTURING METHOD THEREOF - A solar cell and a manufacturing method thereof are provided. A laser doping process is adopted to form positive and negative doping regions for an accurate control of the doping regions. No metal contact coverage issue arises since a contact opening is formed by later firing process. The solar cell is provided with a comb-like first electrode, a sheet-like second electrode corresponding to the doping regions to obtain high photoelectric conversion efficiency by fully utilizing the space in the semiconductor substrate. Furthermore, the sheet-like second electrode can be formed by a material having high reflectivity to improve the light utilization rate of the solar cell. The manufacturing process of the solar cell is simplified and the processing yield is improved. | 2014-10-02 |
20140295613 | METHOD FOR FABRICATING HETEROJUNCTION INTERDIGITATED BACK CONTACT PHOTOVOLTAIC CELLS - The disclosed technology generally relates photovoltaic devices, and more particularly to methods of fabricating heterojunction interdigitated back contact photovoltaic cells having interdigitated emitter regions and back surface field regions. In one aspect, a method of forming on a substrate a patterned n+ a-Si:H layer and a patterned p+ a-Si:H layer, the patterned n+ a-Si:H layer and the patterned p+ a-Si:H layer being interdigitated and electrically isolated from each other, the method comprising: forming a patterned p+ a-Si:H layer on the substrate, the patterned p+ a-Si:H layer covering first regions of the substrate surface and leaving second regions of the substrate surface exposed; depositing a first intrinsic a-Si:H layer on the substrate; depositing an n+ a-Si:H layer on the first intrinsic a-Si:H layer; providing a patterned masking layer covering the n+ a-Si:H layer at least in the second regions; and selectively removing the n+ a-Si:H layer and the first intrinsic a-Si:H layer in regions not covered by the masking layer and stopping at an underlying portion of the p+ a-Si:H layer substantially without removing a substantial amount of the underlying portion of the p+ a-Si:H layer, wherein selectively removing the n+ a-Si:H layer and the first intrinsic a-Si:H layer comprises etching in a solution comprising a diluted TMAH solution. | 2014-10-02 |
20140295614 | SOLAR CELL AND METHOD OF MANUFACTURING THE SAME - A solar cell and a method of manufacturing a solar cell are disclosed. The solar cell includes forming a first doped region of a first conductive type and a second doped region of a second conductive type opposite the first conductive type on a semiconductor substrate of the first conductive type; forming a passivation layer on the semiconductor substrate to expose a portion of each of the first and second doped regions; and forming a first electrode electrically connected to the first doped region and a second electrode electrically connected to the second doped region, wherein the forming of the first and second electrodes includes forming a metal seed layer directly contacting the first doped region and a metal seed layer directly contacting the second doped region, and forming a conductive layer on the metal seed layer of each of the first and second electrodes. | 2014-10-02 |
20140295615 | MULTI-NOZZLE ORGANIC VAPOR JET PRINTING - Systems and methods are provided for depositing thin patterned films of materials in which individual elements of the patterned film are deposited by two or more nozzles having different geometries. The different nozzle geometries may include one or more of different throttle diameters, different exhaust diameters, different cross-sectional shapes, different bore angles, different wall angles, different exhaust distances from the substrate, and different leading edges relative to the direction of movement of the nozzles or the substrate. Methods may include steps of ejecting a carrier gas and a material from a plurality of nozzles and depositing the material on a substrate in a plurality of laterally spaced elements. | 2014-10-02 |
20140295616 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - To provide a miniaturized transistor having favorable electric characteristics. An oxide semiconductor layer is formed to cover a source electrode layer and a drain electrode layer, and then regions of the oxide semiconductor layer which overlap with the source electrode layer and the drain electrode layer are removed by polishing. Precise processing can be performed accurately because an etching step using a resist mask is not performed in the step of removing the regions of the oxide semiconductor layer overlapping with the source electrode layer and the drain electrode layer. Further, a sidewall layer having conductivity is provided on a side surface of a gate electrode layer in a channel length direction; thus, the sidewall layer having conductivity overlaps with the source electrode layer or the drain electrode layer with a gate insulating layer provided therebetween, and a transistor substantially including an L | 2014-10-02 |
20140295617 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A highly reliable semiconductor device which includes a transistor including an oxide semiconductor is provided. In the semiconductor device including a bottom-gate transistor including an oxide semiconductor layer, a stacked layer of an insulating layer and an aluminum film is provided in contact with the oxide semiconductor layer. Oxygen doping treatment is performed in such a manner that oxygen is introduced to the insulating layer and the aluminum film from a position above the aluminum film, whereby a region containing oxygen in excess of the stoichiometric composition is formed in the insulating layer, and the aluminum film is oxidized to form an aluminum oxide film. | 2014-10-02 |
20140295618 | Methods of Manufacturing Flip Chip Semiconductor Packages Using Double-Sided Thermal Compression Bonding - Methods of producing a semiconductor package using dual-sided thermal compression bonding includes providing a substrate having an upper surface and a lower surface. A first device having a first surface and a second surface can be provided along with a second device having a third surface and a fourth surface. The first surface of the first device can be coupled to the upper surface of the substrate while the third surface of the second device can be coupled to the lower surface of the substrate, the coupling occurring simultaneously to produce the semiconductor package. | 2014-10-02 |
20140295619 | BUMP, METHOD FOR FORMING THE BUMP, AND METHOD FOR MOUNTING SUBSTRATE HAVING THE BUMP THEREON - A two-layer structure bump including a first bump layer of a bulk body of a first conductive metal, which is any of gold, copper, and nickel, formed on a substrate and a second bump layer of a sintered body of a powder of a second conductive metal, which is any of gold and silver, formed on the first bump layer. The bulk body composing the first bump layer is formed through any of plating, sputtering, or CVD. The sintered body composing the second bump layer is formed by sintering the powder of the second conductive metal having a purity of not lower than 99.9 wt % and an average particle diameter of 0.005 μm to 1.0 μm. The second bump layer has a Young's modulus 0.1 to 0.4 times that of the first bump layer. | 2014-10-02 |
20140295620 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE HAVING PLURAL SEMICONDUCTOR CHIPS STACKED ONE ANOTHER - Disclosed herein is a method of manufacturing a semiconductor device that includes stacking a plurality of semiconductor chips to form a first chip laminated body, providing an underfill material to fill gaps between the semiconductor chips so that a fillet portion is formed around the first chip laminated body, and trimming the fillet portion to form a second chip laminated body. | 2014-10-02 |
20140295621 | DIE-STACKING USING THROUGH-SILICON VIAS ON BUMPLESS BUILD-UP LAYER SUBSTRATES INCLUDING EMBEDDED-DICE, AND PROCESSES OF FORMING SAME - An apparatus includes a coreless substrate with a through-silicon via (TSV) embedded die that is integral to the coreless substrate. The apparatus includes a subsequent die that is coupled to the TSV die and that is disposed above the coreless substrate. | 2014-10-02 |
20140295622 | NOVEL BUILD-UP PACKAGE FOR INTEGRATED CIRCUIT DEVICES, AND METHODS OF MAKING SAME - A device is disclosed which includes, in one illustrative example, an integrated circuit die having an active surface and a molded body extending around a perimeter of the die, the molded body having lips that are positioned above a portion of the active surface of the die. Another illustrative example includes an integrated circuit die having an active surface, a molded body extending around a perimeter of the die and a CTE buffer material formed around at least a portion of the perimeter of the die adjacent the active surface of the die, wherein the CTE buffer material is positioned between a portion of the die and a portion of the molded body and wherein the CTE buffer material has a coefficient of thermal expansion that is intermediate a coefficient of thermal expansion for the die and a coefficient of thermal expansion for the molded body. | 2014-10-02 |
20140295623 | METHOD OF PACKAGING A CHIP AND A SUBSTRATE - Disclosed is a method of packaging a chip and a substrate, including the steps of forming a substrate with a thickness ranging from 70 to 150 μm, which comprises a dielectric layer, a circuit metal layer stacked on the dielectric layer and bonding pads higher than the dielectric layer by 10 to 15 μm; forming a stabilizing structure around the substrate to provide a receiving space; disposing the chip on the receiving space and bonding the pins of the chip with the bonding pads; and filling up the receiving space under the chip with a filling material to a total thickness ranging from 300 to 850 μm. Without the plastic molding process, the present invention reduces the cost and the total thickness, and further prevents the substrate from warping by use of the stabilizing fixing structure. | 2014-10-02 |
20140295624 | Package with Passive Devices and Method of Forming the Same - An embodiment is a device comprising a substrate, a metal pad over the substrate, and a passivation layer comprising a portion over the metal pad. The device further comprises a metal pillar over and electrically coupled to the metal pad, and a passive device comprising a first portion at a same level as the metal pillar, wherein the first portion of the passive device is formed of a same material as the metal pillar. | 2014-10-02 |
20140295625 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A semiconductor device includes a first-conductivity-type semiconductor layer including an active region in which a transistor having impurity regions is formed and a marginal region surrounding the active region, a second-conductivity-type channel layer formed between the active region and the marginal region and forming a front surface of the semiconductor layer, at least one gate trench formed in the active region to extend from the front surface of the semiconductor layer through the channel layer, a gate insulation film formed on an inner surface of the gate trench, a gate electrode formed inside the gate insulation film in the gate trench, and at least one isolation trench arranged between the active region and the marginal region to surround the active region and extending from the front surface of the semiconductor layer through the channel layer, the isolation trench having a depth equal to that of the gate trench. | 2014-10-02 |
20140295626 | ETCHANT COMPOSITION, AND METHOD OF MANUFACTURING A DISPLAY SUBSTRATE USING THE SAME - An etchant composition includes about 25 percent by weight to about 35 percent by weight of phosphoric acid, about 3 percent by weight to about 9 percent by weight of nitric acid, about 10 percent by weight to about 20 percent by weight of acetic acid, about 5 percent by weight to about 10 percent by weight of a nitrate, about 6 percent by weight to about 15 percent by weight of a sulfonic acid, about 1 percent by weight to about 5 percent by weight of an amine compound including a carboxyl group, about 0.1 percent by weight to about 1 percent by weight of a water-soluble amino acid, about 0.01 percent by weight to about 1 percent by weight of an azole compound, and water. | 2014-10-02 |
20140295627 | METHOD FOR ADJUSTING THE THRESHOLD VOLTAGE OF LTPS TFT - The N-type poly-silicon is applied in the LTPS productions. The LTPS productions comprise an N-type poly-silicon and a P-type poly-silicon. The N-type poly-silicon, from bottom to top, successively includes a substrate layer, a SiO | 2014-10-02 |
20140295628 | MOS P-N JUNCTION SCHOTTKY DIODE DEVICE AND METHOD FOR MANUFACTURING THE SAME - A MOS P-N junction Schottky diode device includes a substrate having a first conductivity type, a field oxide structure defining a trench structure, a gate structure formed in the trench structure and a doped region having a second conductivity type adjacent to the gate structure in the substrate. An ohmic contact and a Schottky contact are formed at different sides of the gate structure. The method for manufacturing such diode device includes several ion-implanting steps to form several doped sub-regions with different implantation depths to constitute the doped regions. The formed MOS P-N junction Schottky diode device has low forward voltage drop, low reverse leakage current, fast reverse recovery time and high reverse voltage tolerance. | 2014-10-02 |