| UNIVERSITY OF HOUSTON Patent applications |
| Patent application number | Title | Published |
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| 20120103739 | POUNDING TUNE MASS DAMPER WITH VISCOELASTIC MATERIAL - A vibration dampener, including, a first beam comprising a first mounting end portion and a first peripheral end portion, wherein the first peripheral end portion comprises a tunable mass, and the first beam is configured to vibrate in tune with a vibrational frequency of a structure supporting the first beam at the first mounting end portion, a second beam comprising a second mounting end portion and a second peripheral end portion, wherein the second peripheral end portion comprises a ring disposed about the first beam, and a viscoelastic material disposed between the first beam and the ring, wherein the viscoelastic material is configured to dampen vibrational energy as the first beam vibrates toward the ring until the viscoelastic material becomes compressed between the first beam and the ring during the course of the impact. | 05-03-2012 |
| 20120019216 | ACTUATION OF SHAPE MEMORY ALLOY MATERIALS USING ULTRACAPACITORS - A system, in certain embodiments, includes a power supply. The power supply includes an ultracapacitor configured to be charged by a DC source. The power supply also includes a first switch that enables charging of the ultracapacitor by the DC source when in a closed position and disables charging of the ultracapacitor when in an open position. The power supply further includes a second switch configured to enable discharging of the ultracapacitor when in a closed position and to disable discharging of the ultracapacitor when in an open position. As the ultracapacitor is discharged, a current is supplied to actuate a shape memory alloy element. | 01-26-2012 |
| 20120018415 | SELF-HEATING CONCRETE USING CARBON NANOFIBER PAPER - Electric, self-heating concrete systems that uses embedded carbon macrofiber or nanofibers paper as electric resistance heating elements are disclose. The self-heating concrete systems may utilize the conductive properties of carbon macrofiber or nanofiber materials to heat a surface overlay of concrete with various admixtures to improve the concrete's thermal conductivity. The self-heating concrete systems allow concrete roadways or the like to be heated to above freezing temperatures in a freezing environment in a reasonable amount of time. | 01-26-2012 |
| 20120017583 | SHAPE MEMORY ALLOY POWERED HYDRAULIC ACCUMULATOR HAVING ACTUATION PLATES - A system, in certain embodiments, includes an accumulator having a first plate with a first plurality of holes and a second plate with a second plurality of holes. The second plate is positioned at an offset from the first plate, and the second plate is moveable relative to the first plate to adjust a fluid pressure. The accumulator also includes a plurality of shape memory alloy wires extending between the first and second plates, wherein the plurality of shape memory alloy wires extend through the first and second plurality of holes. | 01-26-2012 |
| 20120017582 | SHAPE MEMORY ALLOY POWERED HYDRAULIC ACCUMULATOR HAVING WIRE CLAMPS - A system, in certain embodiments, includes an accumulator having a first plate, a second plate positioned at an offset from the first plate, and a shape memory alloy wire extending between the first and second plates from a first wire portion to a second wire portion. The shape memory alloy wire is configured to move the first or second plate to adjust a fluid pressure in response to an electrical current through the shape memory alloy wire. The accumulator also includes a wire clamp assembly coupled to the first wire portion and/or the second wire portion of the shape memory alloy wire. | 01-26-2012 |
| 20120017581 | SHAPE MEMORY ALLOY POWERED HYDRAULIC ACCUMULATOR HAVING WIRE GUIDES - A system, in certain embodiments, includes an accumulator having a first plate with a first wire guide and a second plate with a second wire guide. The second plate is positioned at an offset from the first plate, and the second plate is moveable relative to the first plate to adjust a fluid pressure. The accumulator also includes a plurality of shape memory alloy wires extending between the first and second plates, wherein the plurality of shape memory alloy wires extend along the first and second wire guides. | 01-26-2012 |
| 20110259463 | VISCOELASTIC DAMPED JUMPERS - A system, in certain embodiments, includes a multi-layer composite strip of pipe dampening materials, comprising a first layer of a first material, a second layer of a second material disposed adjacent to the first layer of material, and a third layer of a third material disposed adjacent to the second layer of material, wherein the second material comprises a viscoelastic material, and wherein the multi-layer composite strip of pipe dampening materials is configured to be affixed to an outer surface of a section of pipe. In certain embodiments, the first layer and the third layer may have stiffness values that are substantially different from each other. The difference in stiffness values may enable relative motion in the first layer and the third layer to be generated during vibration of the section of pipe, and the energy may be dissipated by the viscoelastic material, thereby dampening vibration of the section of pipe. In certain embodiments, multiple strips of pipe dampening materials may be used. | 10-27-2011 |
| 20110253614 | VERSATILE UNFOLDING SOLAR DEPLOYMENT SYSTEM - A versatile solar deployment system may provide one or more scalable solar deployment units. A solar deployment unit may include a chassis, a panel support provided by the chassis, and one or more solar panels coupled to the panel support, wherein the solar panels are folded together in an undeployed position, and the solar panels are unfolded in a deployed position. Alternatively, a solar deployment unit may include a rolling mechanism providing a rotating shaft and a flexible panel. One end of the flexible panel is secured to the rotating shaft, the flexible panel is rolled around the rotating shaft to retract the flexible panel into an undeployed position, and the flexible panel is unrolled to deploy the flexible panel into a deployed position. | 10-20-2011 |
| 20110223670 | ETS2 AND MESP1 GENERATE CARDIAC PROGENITORS FROM FIBROBLASTS - A method for modulating cell differentiation capabilities using heterologous gene expression. Some embodiments of the invention relate to a method for inducing a cardiac progenitor cell by delivering a reprogramming factor to the cell, wherein the reprogramming factor comprises ETS2 or a combination of ETS2 and Mesp1. | 09-15-2011 |
| 20110208031 | NEUTRAL PARTICLE NANOPATTERNING FOR NONPLANAR MULTIMODAL NEURAL PROBES - A neural probe includes a probe, wherein a tip of the probe is tapered; an insulating layer covering the probe, and one or more metallic traces, wherein the metallic traces are provide along the length of the probe. The probe also includes one or more contacts provided on the tip of the probe, wherein each of the one or more metallic traces terminates at the one or more contacts, and the one or more contacts provide an array of nanosized metallic pillars. The neural probe may also incorporate a lightguide. The lightguide may include an insulating layer providing a first cladding layer on the probe, a core layer provided on top of the first cladding layer, wherein the metallic traces and contacts are provided in the core layer with a core material, and a second cladding layer provided on top of the core layer. | 08-25-2011 |
| 20110146755 | VERTICALLY STACKED PHOTOVOLTAIC AND THERMAL SOLAR CELL - According to some embodiments, the present invention provides a novel photovoltaic solar cell system from photovoltaic modules that are vertically arrayed in a stack format using thin film semiconductors selected from among organic and inorganic thin film semiconductors. The stack cells may be cells that are produced in a planar manner, then vertically oriented in an angular form, also termed herein tilted, to maximize the light capturing aspects. The use of a stack configuration system as described herein allows for the use of a variety of electrode materials, such as transparent materials or semitransparent metals. Light concentration can be achieved by using fresnel lens, parabolic mirrors or derivatives of such structures. The light capturing can be controlled by being reflected back and forth in the photovoltaic system until significant quantities of the resonant light is absorbed. Light that passes to the very end and can be reflected back through the device by beveling or capping the end of the device with a different refractive index material, or alternatively using a reflective surface. The contacting between stacked cells can be done in series or parallel. According to some embodiments, the present invention uses a concentrator architecture where the light is channeled into the cells that contain thermal fluid channels (using a transparent fluid such as water) to absorb and hence reduce the thermal energy generation. | 06-23-2011 |
| 20110139748 | ATOMIC LAYER ETCHING WITH PULSED PLASMAS - A system and method for rapid atomic layer etching (ALET) including a pulsed plasma source, with a spiral coil electrode, a cooled Faraday shield, a counter electrode disposed at the top of the tube, a gas inlet and a reaction chamber including a substrate support and a boundary electrode. The method includes positioning an etchable substrate in a plasma etching chamber, forming a product layer on the surface of the substrate, removing a portion of the product layer by pulsing a plasma source, then repeating the steps of forming a product layer and removing a portion of the product layer to form an etched substrate. | 06-16-2011 |
| 20110081494 | Organoclay-Polyurea Nanocomposites - A nanocomposite having a nanomaterial dispersed into a polymer matrix, in one embodiment exfoliated nanoclay dispersed in a polyurea matrix. A method of making PU-nanocomposites for coatings for improved mechanical properties, in one embodiment the method comprises obtaining and treating a nanomaterial, dispersing the nanomaterial into a pre-polymer matrix, mixing the pre-polymer matrix under heating to form a coating; and depositing the coating on a substrate. | 04-07-2011 |
| 20100313944 | WRAPPED OPTOELECTRONIC DEVICES AND METHODS FOR MAKING SAME - In various embodiments, optoelectronic devices are described herein. The optoelectronic device may include an optoelectronic cell arranged so as to wrap around a central axis wherein the cell includes a first conductive layer, a semi-conductive layer disposed over and in electrical communication with the first conductive layer, and a second conductive layer disposed over and in electrical communication with the semi-conductive layer. In various embodiments, methods for making optoelectronic devices are described herein. The methods may include forming an optoelectronic cell while flat and wrapping the optoelectronic cell around a central axis. The optoelectronic devices may be photovoltaic devices. Alternatively, the optoelectronic devices may be organic light emitting diodes. | 12-16-2010 |
| 20100252805 | GaN Nanorod Arrays Formed by Ion Beam Implantation - A method of preparing nanorod arrays using ion beam implantation is described that includes defining a pattern on a substrate and then implanting ions into the substrate using ion beam implantation. Next, a thin film is deposited on the substrate. During film growth, nanotrenches form and catalyze the formation of nanorods through capillary condensation. The resulting nanorods are aligned with the supporting matrix and are free from lattice and thermal strain effect. The density, size, and aspect ratios of the nanorods can be varied by changing the ion beam implantation and thin film growth conditions resulting in control of emission efficiency. | 10-07-2010 |
| 20100193685 | Miniature Neutron Generator for Active Nuclear Materials Detection - This miniature neutron generator is for active detection of highly enriched uranium using a movable detection system. It is a small size, lightweight, low power consumption neutron generator with ease of operation and maintenance. The detector is based on a simplified ion source and ion transport system. | 08-05-2010 |
| 20100160521 | COMPOSITES COMPRISING BIOLOGICALLY-SYNTHESIZED NANOMATERIALS - The present disclosure describes composite materials containing a polymer material and a nanoscale material dispersed in the polymer material. The nanoscale materials may be biologically synthesized, such as tellurium nanorods synthesized by | 06-24-2010 |
| 20100132887 | System and Method For Nano-Pantography - A method is provided for creating a plurality of substantially uniform nano-scale features in a substantially parallel manner in which an array of micro-lenses is positioned on a surface of a substrate, where each micro-lens includes a hole such that the bottom of the hole corresponds to a portion of the surface of the substrate. A flux of charged particles, e.g., a beam of positive ions of a selected element, is applied to the micro-lens array. The flux of charged particles is focused at selected focal points on the substrate surface at the bottoms of the holes of the micro-lens array. The substrate is tilted at one or more selected angles to displace the locations of the focal points across the substrate surface. By depositing material or etching the surface of the substrate, several substantially uniform nanometer sized features may be rapidly created in each hole on the surface of the substrate in a substantially parallel manner. | 06-03-2010 |
| 20100087336 | FUNCTIONAL NUCLEIC ACIDS AND METHODS - The present invention relates to methods of generating amounts of selective nucleic acids. The present invention further relates to selective nucleic acids incorporated within non-coding nucleic acids, capable of binding to or altering a target molecule. Selective nucleic acids may generally refer to, but are not limited to, deoxyribonucleic acids (DNAs), ribonucleic acids (RNAs), artificially modified nucleic acids, combinations or modifications thereof. Selective nucleic acids may also generally refer to, but are not limited to, nucleic acid aptamers, aptazymes, ribozymes, deoxyribozymes, nucleic acid probes, small interfering RNAs (siRNAs), micro RNAs (miRNAs), short hairpin RNAs (shRNAs), antisense nucleic acids, diagnostic probes or probe libraries, aptamer inhibitors, precursors of any of the above and/or combinations or modifications thereof. In one aspect, a method for generating amounts of selective nucleic acids includes incorporating a selective nucleic acid sequence into a carrier nucleic acid. In general, the carrier nucleic acid may be transcribed by a cell into a product nucleic acid which may carry an incorporated selective nucleic acid sequence. | 04-08-2010 |
| 20100018579 | FIBER PHOTOVOLTAIC DEVICES AND METHODS FOR PRODUCTION THEREOF - In various embodiments, fiber photovoltaic devices are described in the present disclosure. The fiber photovoltaic devices include an optical filament, a first electrode coating the optical filament, a continuous semiconductive layer deposited above the first electrode layer, and a second electrode layer deposited above the continuous semiconductive layer. The first electrode layer is at least partially transparent to electromagnetic radiation. The continuous semiconductive layer is in electrical contact with the first electrode layer. The continuous semiconductive layer absorbs electromagnetic radiation and turns the electromagnetic radiation into an electrical signal. The continuous semiconductive layer includes at least two semiconductive materials that are substantially unmixed and are located in separate regions along the longitudinal axis of the fiber photovoltaic device. The second electrode layer is in electrical contact with the continuous semiconductive layer. In various embodiments, photovoltaic collectors including a plurality of the fiber photovoltaic devices are described. In various embodiments, methods for production of fiber photovoltaic devices by a dip coating technique are described. | 01-28-2010 |
| 20090295644 | ANTENNAS BASED ON A CONDUCTIVE POLYMER COMPOSITE AND METHODS FOR PRODUCTION THEREOF - The present disclosure describes antennas based on a conductive polymer composite as replacements for metallic antennas. The antennas include a non-conductive support structure and a conductive composite layer deposited on the non-conductive support structure. The conductive composite includes a plurality of carbon nanotubes and a polymer. Each of the plurality of carbon nanotubes is in contact with at least one other of the plurality of carbon nanotubes. The conductive composite layer is operable to receive at least one electromagnetic signal. Other various embodiments of the antennas include a hybrid antenna structure wherein a metallic antenna underbody replaces the non-conductive support structure. In the hybrid antennas, the conductive composite layer acts as an amplifier for the metallic antenna underbody. Methods for producing the antennas and hybrid antennas are also disclosed. Radios, cellular telephones and wireless network cards including the antennas and hybrid antennas are also described. | 12-03-2009 |
| 20090283215 | SYSTEM AND METHOD FOR NANO-PANTOGRAPHY - A method is provided for creating a plurality of substantially uniform nano-scale features in a substantially parallel manner in which an array of micro-lenses is positioned on a surface of a substrate, where each micro-lens includes a hole such that the bottom of the hole corresponds to a portion of the surface of the substrate. A flux of charged particles, e.g., a beam of positive ions of a selected element, is applied to the micro-lens array. The flux of charged particles is focused at selected focal points on the substrate surface at the bottoms of the holes of the micro-lens array. The substrate is tilted at one or more selected angles to displace the locations of the focal points across the substrate surface. By depositing material or etching the surface of the substrate, several substantially uniform nanometer sized features may be rapidly created in each hole on the surface of the substrate in a substantially parallel manner. | 11-19-2009 |
| 20090201016 | Apparatus and method for determining magnetic properties of materials - Apparatus for determining magnetic properties of materials comprises a portable probe ( | 08-13-2009 |
| 20090148162 | METHODS FOR NON-WAVELENGTH-CONVERTING MULTI-LANE OPTICAL SWITCHING - A method for providing multi-wavelength switching. The method comprising receiving a plurality of signals through at least one input port, and separating the plurality of said signals into at least one wavelength signal set based on wavelengths, wherein a first wavelength signal set of said at least one wavelength signal sets corresponds to a first wavelength. The method further comprises providing a plurality of output lanes to at least one output port, and determining if two signals from said first wavelength signal set traveling on said first wavelength are scheduled output from an output port during an overlapping time period through said plurality of output lanes. The method further comprises determining if one of said plurality of output lanes is available during said overlapping time period when said two signals are schedule for said output port during the overlapping time period, wherein a first signal of said two signals is routed for output on an available lane if one of said plurality of output lanes of said output port is available. | 06-11-2009 |
| 20090114061 | DE-ALLOYED PLATINUM NANOPARTICLES - A method of producing de-alloyed nanoparticles. In an embodiment, the method comprises admixing metal precursors, freeze-drying, annealing, and de-alloying the nanoparticles in situ. Further, in an embodiment de-alloyed nanoparticle formed by the method, wherein the nanoparticle further comprises a core-shell arrangement. The nanoparticle is suitable for electrocatalytic processes and devices. | 05-07-2009 |
| 20090082222 | PREPARATION OF SENSORS ON OLIGO- OR POLY (ETHYLENE GLYCOL) FILMS ON SILICON SURFACES - A sensor that includes a) a silicon (Si) substrate having a surface; and b) a monolayer of oligoethylene glycol (OEG) bonded to the surface via silicon-carbon bonds. Regions of the OEG monolayer distal to the surface are functionalized with a ligand serving as a recognition element for a bioanalyte. The ligand is covalently bonded in these regions as a cycloadduct of a 1,3-dipolar cycloaddition reaction. A method of making a silicon surface that recognizes a biological specimen includes 1) hydrosilylating with a mixture that includes an oligoethylene glycol (OEG) substituted with an alkene at one end of the OEG and capped at the opposing end of the OEG and an oligoethylene glycol (OEG) substituted with an alkene at one end of the OEG and an alkyne having a protecting group at the opposing end of the OEG and 2) removing the protecting group from the alkyne; and 3) reacting the alkyne with a reagent in a 1,3-dipolar cycloaddition. The reagent in the 1,3-dipolar cycloaddition includes a portion capable of being recognized by a biological specimen. | 03-26-2009 |
| 20090042137 | METHOD FOR TRANSLATING A STRUCTURED BEAM OF ENERGETIC PARTICLES ACROSS A SUBSTRATE IN TEMPLATE MASK LITHOGRAPHY - The present inventors have developed an accurate method for forming a plurality of images on a substrate. The present method provides an improved pattern replication technique that provides submicron resolution, for example 20 nm or less, especially 10 nm or less. The method may involve moving a structured beam of energetic radiation across a target substrate. The motion of an image of the template mask on the substrate is achieved by tilting a mask and substrate assembly relative to the axis of the incident beam. The technique does not require high precision motion of the template mask relative to the target substrate. The energetic radiation may comprise energetic particles. The technique is insensitive to particle energy and can be applied to uncharged, neutral particles. | 02-12-2009 |
| 20090030090 | Carbon nanotube reinforced polymer nanocomposites - The present invention is directed to carbon nanotube (CNT)/polymer composites, i.e., nanocomposites, wherein the CNTs in such nanocomposites are highly dispersed in a polymer matrix, and wherein the nanocomposites comprise a compatibilizing surfactant that interacts with both the CNTs and the polymer matrix. The present invention is also directed to methods of making these nanocomposites. In some such methods, the compatibilizing surfactant provides initial CNT dispersion and subsequent mixing with a polymer. The present invention is also directed to methods of using these nanocomposites in a variety of applications. | 01-29-2009 |
| 20080221676 | Accommodating Intraocular Lens and Methods of Use - The present invention relates to a first intraocular lens ( | 09-11-2008 |
