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93results about How to "Improve injection" patented technology

Light emitting device

By doping an organic compound functioning as an electron donor (hereinafter referred to as donor molecules) into an organic compound layer contacting a cathode, donor levels can be formed between respective LUMO (lowest unoccupied molecular orbital) levels between the cathode and the organic compound layer, and therefore electrons can be injected from the cathode, and transmission of the injected electrons can be performed with good efficiency. Further, there are no problems such as excessive energy loss, deterioration of the organic compound layer itself, and the like accompanying electron movement, and therefore an increase in the electron injecting characteristics and a decrease in the driver voltage can both be achieved without depending on the work function of the cathode material.
Owner:SEMICON ENERGY LAB CO LTD

Melt-fabricable core/shell perfluoropolymer

InactiveUS7763680B2High viscosityIncrease in critical shear rateFibre treatmentCoatingsPolymer sciencePolymer
Core / shell polymer is provided wherein the core comprises non-melt flowable PTFE and the shell comprises melt-fabricable perfluoropolymer, the core / shell polymer providing a thixotropic melt blend and improved physical properties as compared to the melt-fabricable perfluoropolymer by itself.
Owner:THE CHEMOURS CO FC LLC

Conducting polymer composition, conductive film formed using the conducting polymer composition, and electronic device including the conductive film

Provided is a conducting polymer composition including a conducting polymer and an ionic conjugated polymer. The conducting polymer composition includes the ionic conjugated polymer having a conjugated structure, in addition to the conducting polymer, and thus, can enhance hole injection and transport capability. Furthermore, ionization potential and work function can be easily adjusted by chemically tuning the backbone of the ionic conjugated polymer. In addition, the conducting polymer composition can be dissolved in water, alcohol, or a polar organic solvent, thereby enabling a solution process and rendering spin-coating easier.
Owner:SAMSUNG MOBILE DISPLAY CO LTD

Electronic devices including transparent conductive coatings including carbon nanotubes and nanowire composites, and methods of making the same

InactiveUS20110214728A1Enhance carrier injectionBeneficial attributeContact surface shape/structureLighting and heating apparatusSheet resistanceConductive coating
Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σdc / σopt ratio of such thin films may be improved via stable chemical doping and / or alloying of CNT-based films. The doping and / or alloying may be implemented in a large area coating system, e.g., on glass and / or other substrates. In certain example embodiments, a CNT film may be deposited and then doped via chemical functionalization and / or alloyed with silver and / or palladium. Both p-type and n-type dopants may be used in different embodiments of this invention. In certain example embodiments, silver and / or other nanowires may be provided, e.g., to further decrease sheet resistance. Certain example embodiments may provide coatings that approach, meet, or exceed 90% visible transmission and 90 ohms / square target metrics.
Owner:GUARDIAN GLASS LLC

Light-emitting element having nitride semiconductor multiquantum barrier, and process for production thereof

An Al0.95Ga0.05N:Mg (25 nm) single electron barrier can stop electrons having energy levels lower than the barrier height. Meanwhile, a 5-layer Al0.95Ga0.05N (4 nm) / Al0.77Ga0.23N (2 nm) MQB has quantum-mechanical effects so as to stop electrons having energy levels higher than the barrier height. Thus, electrons having energy levels higher than the barrier height can be blocked by making use of multiquantum MQB effects upon electrons. The present inventors found that the use of an MQB allows blocking of electrons having higher energy levels than those blocked using an SQB. In particular, for InAlGaN-based ultraviolet elements, AlGaN having the composition similar to that of AlN is used; however, it is difficult to realize a barrier having the barrier height exceeding that of AlN. Therefore, MQB effects are very important. Accordingly, it becomes possible to provide element technology for further improving deep UV light emission intensity using, as a light-emitting layer material, an AlGaInN-based material and, in particular, an AlGaN-based material.
Owner:RIKEN

Screen printable electroluminescent polymer ink

ActiveUS7115216B2Decrease solvent evaporation rateImprove charge injection and power efficiencySolid-state devicesSemiconductor/solid-state device manufacturingSolventSolvent evaporation
The addition of a variety of additives to a soluble electroluminescent polymer in solution is used to improve the printability and performance of screen printed light-emitting polymer-based devices. Examples of such additives include transparent polymers, gel-retarders, high viscosity liquids, organic and inorganic salts, and oxide nanoparticles. The additives are used to control the viscosity of the electroluminescent polymer ink, to decrease the solvent evaporation rate, and to improve the ink consistency and working time. In addition, these additives can improve the charge injection and power efficiency of light emitting devices manufactured from the screen printable electroluminescent polymer ink.
Owner:SUMITOMO CHEM CO LTD

Large-area transparent conductive coatings including doped carbon nanotubes and nanowire composites, and methods of making the same

InactiveUS20110217451A1Beneficial attributeTunable electronic propertyPretreated surfacesInksNanowireCoating system
Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σdc / σopt ratio of such thim films may be improved via stable chemical doping and / or alloying of CNT-based films. The doping and / or alloying may be implemented in a large area coating system, e.g., on glass and / or other substrates. In certain example embodiments, a CNT film may be deposited and then doped via chemical functionalization and / or alloyed with silver and / or palladium. Both p-type and n-type dopants may be used in different embodiments of this invention. In certain example embodiments, silver and / or other nanowires may be provided, e.g., to further decrease sheet resistance. Certain example embodiments may provide coatings that approach, meet, or exceed 90% visible transmission and 90 ohms / square target metrics.
Owner:GUARDIAN GLASS LLC

Large-area transparent conductive coatings including alloyed carbon nanotubes and nanowire composites, and methods of making the same

Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σdc / σopt ratio of such thin films may be improved via stable chemical doping and / or alloying of CNT-based films. The doping and / or alloying may be implemented in a large area coating system, e.g., on glass and / or other substrates. In certain example embodiments, a CNT film may be deposited and then doped via chemical functionalization and / or alloyed with silver and / or palladium. Both p-type and n-type dopants may be used in different embodiments of this invention. In certain example embodiments, silver and / or other nanowires may be provided, e.g., to further decrease sheet resistance. Certain example embodiments may provide coatings that approach, meet, or exceed 90% visible transmission and 90 ohms / square target metrics.
Owner:GUARDIAN GLASS LLC

Core/shell polymer

Core / shell polymer is provided wherein the core comprises non-melt flowable PTFE and the shell comprises melt-fabricable perfluoropolymer, the core / shell polymer providing a thixotropic melt blend and improved physical properties as compared to the melt-fabricable perfluoropolymer by itself.
Owner:THE CHEMOURS CO FC LLC

Nitrogenated heterocyclic derivative, electron-transporting material for organic electroluminescent elements, and organic electroluminescent element using same

A specific nitrogen-containing heterocyclic compound having a urea structure, an electron transporting material containing the nitrogen-containing heterocyclic compound, and an organic electroluminescence device including a light emitting layer and an electron transporting layer between a cathode and an anode in which the electron transporting layer includes the electron transporting material or the nitrogen-containing heterocyclic derivative. An organic EL device exhibiting high emission efficiency even at low voltage and a material for organic EL devices are described.
Owner:IDEMITSU KOSAN CO LTD

Organic electroluminescent device

An organic electroluminescent device includes an anode, a cathode and an organic functional layer between the anode and the cathode, in which at least one of hole injection layer, hole transport layer and electron transport layer includes a host material and an inorganic inactive material doped in the host material, and the inorganic inactive material is a halide, oxide or carbonate of metal.
Owner:TSINGHUA UNIV +2

Image system for percutaneous instrument guidence

InactiveUS20140249405A1Improved musculoskeletal injectionImproved other percutaneous procedure accuracyOrgan movement/changes detectionSurgical navigation systemsComputer graphics (images)Reference image
Hardware and software methodology are described including a synthesized User Interface (UI) to provide guidance for injection and other procedures under medical imaging. The UI provides a practitioner the option of viewing multiple images concurrent with a live image. A guidance image corresponds to correct probe placement for a selected procedure, a reference image corresponds to an expected view with such probe placement in the live image. The reference image may be variously labeled. Another option involves probe tracking to update the guidance and / or reference image view(s).
Owner:IGIS

Large-area transparent conductive coatings including doped carbon nanotubes and nanowire composites, and methods of making the same

InactiveUS8518472B2Beneficial attributeTunable electronic propertyPretreated surfacesInksNanowireCoating system
Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σdc / σopt ratio of such thim films may be improved via stable chemical doping and / or alloying of CNT-based films. The doping and / or alloying may be implemented in a large area coating system, e.g., on glass and / or other substrates. In certain example embodiments, a CNT film may be deposited and then doped via chemical functionalization and / or alloyed with silver and / or palladium. Both p-type and n-type dopants may be used in different embodiments of this invention. In certain example embodiments, silver and / or other nanowires may be provided, e.g., to further decrease sheet resistance. Certain example embodiments may provide coatings that approach, meet, or exceed 90% visible transmission and 90 ohms / square target metrics.
Owner:GUARDIAN GLASS LLC

Thermoplastic polyurethanes composition and preparation processes thereof

ActiveUS20130267639A1Improve processabilityIncrease abrasion lossDicarboxylic acidCyclohexane
This invention is directed to a thermoplastic polyurethanes composition comprising polyether-based thermoplastic polyurethane and 1,2-cyclohexane dicarboxylic acid ester and preparation processes thereof. The thermoplastic polyurethane composition has a good mold release behavior in injection molding without undesirably significant shrinkage and surface blooming of final product.
Owner:BASF SE

Large-area transparent conductive coatings including alloyed carbon nanotubes and nanowire composites, and methods of making the same

InactiveUS8460747B2Beneficial attributeTunable electronic propertyFinal product manufactureSemiconductor/solid-state device detailsNanowireCoating system
Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σdc / σopt ratio of such thin films may be improved via stable chemical doping and / or alloying of CNT-based films. The doping and / or alloying may be implemented in a large area coating system, e.g., on glass and / or other substrates. In certain example embodiments, a CNT film may be deposited and then doped via chemical functionalization and / or alloyed with silver and / or palladium. Both p-type and n-type dopants may be used in different embodiments of this invention. In certain example embodiments, silver and / or other nanowires may be provided, e.g., to further decrease sheet resistance. Certain example embodiments may provide coatings that approach, meet, or exceed 90% visible transmission and 90 ohms / square target metrics.
Owner:GUARDIAN GLASS LLC

In-Process Non-Contact Measuring Systems and Methods for Automated Lapping Systems

InactiveUS20080216336A1Mitigate undesirable characteristicQuality improvementComputer controlSimulator controlControl signalEngineering
In-process non-contact measurement systems and methods for automated lapping systems are disclosed. In an embodiment, a moveable frame can be controllably positioned proximate to a lapped work product. A control component can provide first control signals to control a movement of the moveable frame relative to the lapped work product. A non-contact measuring device can be coupled to the moveable frame measures a surface of the lapped work product and can transmit measurement data of the surface of the lapped work product to the control component. The control component can further provide second control signals to control a movement of the non-contact measuring device relative to the moveable frame.
Owner:THE BOEING CO

Light-Emitting Semiconductor Chip

A semiconductor chip includes a semiconductor body with a semiconductor layer sequence. An active region intended for generating radiation is arranged between an n-conductive multilayer structure and a p-conductive semiconductor layer. A doping profile is formed in the n-conductive multilayer structure which includes at least one doping peak.
Owner:OSRAM OLED

Dual fuel refueling

Embodiments are disclosed that relate to refueling a dual fuel internal combustion engine. In one example, a method comprises supplying a liquid fuel to a fuel tank configured to store both the liquid fuel and a gaseous fuel, if a pressure in the fuel tank is less than a threshold pressure.
Owner:FORD GLOBAL TECH LLC

High amylose dog chew formulation

The invention provide methods and materials for producing nutritious pet chews comprising an edible thermoplastic comprising from 45 to 80 wt. % starch selected from one or more potato and non-potato starches wherein said starch comprises at least 28% amylose as determined by size exclusion chromatography if less than 50% of said starch is potato starch or at least 20% amylose as determined by size exclusion chromatography if greater than or equal to 50% of said starch is potato starch; from 5 to 25 wt. % plasticizer; 2% to 15 wt % of a humectant and from 5 to 25 wt. % water.
Owner:B&S PLASTICS

Injection valve

InactiveUS20120256013A1Injection behavior be improveImprove injectionMovable spraying apparatusSpray nozzlesExhaust gasInjector
The invention relates to an injection valve (1), which is used in particular as an injector for fuel injection systems or exhaust gas aftertreatment systems, comprising a shock wave actuator (4), a valve closing body (8) that interacts with a valve seat surface (7) to form a sealing seat (9), and a shock wave amplification channel (22). The shock wave amplification channel (22) is used to conduct shock waves (27) generated by the shock wave actuator (4) to the sealing seat (9) and to amplify said shock waves (27).
Owner:ROBERT BOSCH GMBH

System and method of stabilizing charge pump node voltage levels

ActiveUS20130120040A1Reduce headroomReduced transistor headroomPulse automatic controlCharge pump
A method includes tracking a tuning voltage at a first circuit coupled to a first drain node of a first supply of a charge pump. The method also includes tracking the tuning voltage at a second circuit coupled to a second drain node of a second supply of the charge pump. The method further includes stabilizing a first voltage of the first drain node and a second voltage of the second drain node responsive to the tuning voltage.
Owner:QUALCOMM INC

Opto-Electronic Device With Two-Dimensional Injection Layers

An opto-electronic device with two-dimensional injection layers is described. The device can include a semiconductor structure with a semiconductor layer having one of an n-type semiconductor layer or a p-type semiconductor layer, and a light generating structure formed on the semiconductor layer. A set of tilted semiconductor heterostructures is formed over the semiconductor structure. Each tilted semiconductor heterostructure includes a core region, a set of shell regions adjoining a sidewall of the core region, and a pair of two-dimensional carrier accumulation (2DCA) layers. Each 2DCA layer is formed at a heterointerface between one of the sidewalls of the core region and one of the shell regions. The sidewalls of the core region, the shell regions, and the 2DCA layers each having a sloping surface, wherein each 2DCA layer forms an angle with a surface of the semiconductor structure.
Owner:SENSOR ELECTRONICS TECH

Screen Printable Electroluminescent Polymer Ink

The addition of a variety of additives to a soluble electroluminescent polymer in solution is used to improve the printability and performance of screen printed light-emitting polymer-based devices. Examples of such additives include transparent polymers, gel-retarders, high viscosity liquids, organic and inorganic salts, and oxide nanoparticles. The additives are used to control the viscosity of the electroluminescent polymer ink, to decrease the solvent evaporation rate, and to improve the ink consistency and working time. In addition, these additives can improve the charge injection and power efficiency of light emitting devices manufactured from the screen printable electroluminescent polymer ink.
Owner:CARTER SUSAN A +3

Light-emitting semiconductor chip

A semiconductor chip includes a semiconductor body with a semiconductor layer sequence. An active region intended for generating radiation is arranged between an n-conductive multilayer structure and a p-conductive semiconductor layer. A doping profile is formed in the n-conductive multilayer structure which includes at least one doping peak.
Owner:OSRAM OLED

Organic field emission device and emission device

The present invention provides an organic electroluminescence light emitting device capable of preventing a color (hue) of light and a luminous efficiency from being varied depending on a concentration of a luminous material contained in a light emission layer and an operational condition such as an applied voltage, thereby exhibiting a high luminance, a high performance, and a stable, reliability. The light emitting device includes an anode (6), a hole transport layer (2), a light emission layer (3), an electron transport layer (4), or includes an anode (6), a hole transport layer (2), and a light emission layer (4) serving as an electron transport layer. A light emission region is formed by a mixed layer made from a luminescent material and a charge injection accelerating material. The luminescent material exhibits, in a state held as a single thin film between the anode (6) and the cathode (7), electroluminescence light emission when a DC voltage is applied thereto and has a charge transport characteristic. The charge injection accelerating material is different from the luminous material and has a charge transport characteristic capable of accelerating injection of charges in the luminescent material. The light emission region exists not only at an interface with an adjacent layer or its vicinity but also over a specific thickness region in the layer thickness direction.
Owner:SONY CORP

Three-terminal organic electro-luminescent device

InactiveUS6897621B2Enhance local electric fieldEnhanced carrier injectionDischarge tube luminescnet screensStatic indicating devicesOptoelectronicsOrganic electroluminescence
A three-terminal organic electro-luminescent (EL) device is disclosed for achieving increased efficiency, decreased turn-on voltage, and increased brightness. The three-terminal organic EL device has a first electrode formed on a substrate, at least one organic material layer including an organic light-emitting layer formed on the first electrode, a second electrode formed on the organic material layer; and at least one third electrode formed on or inside said organic material layer. The third electrode is formed outside of a region, which is between the first electrode and the second electrode to prevent a reduction of luminescent area. The luminance of the organic EL device is controlled by adjusting potential of the third electrode with respect to the potentials of the first electrode and the second electrode.
Owner:PARK BYOUNG CHOO
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