Patents Assigned to Arizona Board of Regents acting for and on behalf of Arizona State University
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Publication number: 20130040290Abstract: A monitoring assembly (201) with an intake (213) has at least one pump (210) featuring at least one pump channel mounted in the monitoring assembly (201). A plurality of fluid lines are coupled to the at least one pump (210). At least one filter cartridge (315) is also mounted in the assembly. Each filter cartridge (315) is separately coupled by one of the plurality of fluid lines to one of the pump channels, where each filter cartridge (315) contains material for extracting an analyte, and where the at least one pump operates to separately push fluid through the at least one filter cartridge (315). The filter cartridge (315) operates to separate fluid into constituent parts.Type: ApplicationFiled: May 4, 2011Publication date: February 14, 2013Applicant: Arizona Board of Regents Acting for and on behalf of Arizona State UniversityInventor: Rolf U. Halden
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Publication number: 20120175644Abstract: Embodiments of displays with embedded MEMS sensors and related methods are described herein. Other embodiments and related methods are also disclosed herein.Type: ApplicationFiled: July 27, 2011Publication date: July 12, 2012Applicant: Arizona Board of Regents, Acting for and on behalf of Arizona State UniversityInventors: Sameer M. Venugopal, Narendra V. Lakamraju
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Publication number: 20120118045Abstract: A gas-phase detection system based on detecting optochemical and optoelectrochemical signals. The sensing platform is particularly powerful for detection of nitrogen oxides at low ppbV concentrations. The optochemical analysis is based on the color development due to a chemical reaction taking place in an optimized material. The electrochemical analysis can be based on the doping level or redox potential changes of an electrochemical sensor; and optoelectrochemical detection can be based on a combination of the electrochemical and optoelectrochemical methodologies. Each independent signal can be simultaneously detected, increasing the reliability of detection.Type: ApplicationFiled: June 2, 2010Publication date: May 17, 2012Applicant: Arizona Board of Regents acting for and on behalf of Arizona State UniversityInventors: Nongjian Tao, Erica Forzani, Rodrigo A. Iglesias
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Publication number: 20120009491Abstract: Provided in one embodiment is an electrochemical cell for generating power, and more particularly to a metal-air electrochemical cell using a low temperature ionic liquid and a liquid metal fuel.Type: ApplicationFiled: April 28, 2011Publication date: January 12, 2012Applicant: Arizona Board of Regents Acting for And on Behalf of Arizona State UniversityInventors: Cody A. Friesen, Jose Antonio Bautista Martinez, Robert August Zeller
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Publication number: 20110281184Abstract: Systems and methods drawn to an electrochemical cell comprising a low temperature ionic liquid comprising positive ions and negative ions and a performance enhancing additive added to the low temperature ionic liquid. The additive dissolves in the ionic liquid to form cations, which are coordinated with one or more negative ions forming ion complexes. The electrochemical cell also includes an air electrode configured to absorb and reduce oxygen. The ion complexes improve oxygen reduction thermodynamics and/or kinetics relative to the ionic liquid without the additive.Type: ApplicationFiled: May 11, 2011Publication date: November 17, 2011Applicant: Arizona Board of Regents Acting For And on Behalf of Arizona State UniversityInventors: Cody A. FRIESEN, Daniel Buttry
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Patent number: 8003316Abstract: A nanoscale motion detector attaches a gold nanorod (30) to the rotating arm (26) of a molecular structure (10) to cause the nanoparticle to rotate. The molecular structure is an F1-ATPase enzyme. The gold nanorod is exposed to a light source. The long axis of the gold nanorod scatters red light when the nanorod is in a first position. The short axis of the gold nanorod scatters green light when the nanorod is in a second position. A polarizing filter filters the red and green light to detect the rotational motion by observing alternating red and green lights. A detection DNA stand (50) is coupled between the gold nanorod and the molecular structure. The detection DNA strand hybridizes with a target DNA strand (58) if the target DNA strand matches the detection DNA strand to form a structural link between the molecular structure and gold nanorod.Type: GrantFiled: December 11, 2003Date of Patent: August 23, 2011Assignee: Arizona Board of Regents, Acting for and on Behalf of Arizona State UniversityInventors: Wayne D. Frasch, Lars Chapsky
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Publication number: 20110120868Abstract: The present invention is directed to systems, devices and methods for identifying biopolymers, such as strands of DNA, as they pass through a constriction such as a carbon nanotube nanopore. More particularly, the invention is directed to such systems, devices and methods in which a newly translocated portion of the biopolymer forms a temporary electrical circuit between the nanotube nanopore and a second electrode, which may also be a nanotube. Further, the invention is directed to such systems, devices and methods in which the constriction is provided with a functionalized unit which, together with a newly translocated portion of the biopolymer, forms a temporary electrical circuit that can be used to characterize that portion of the biopolymer.Type: ApplicationFiled: March 18, 2009Publication date: May 26, 2011Applicant: Arizona Board of Regents Acting for and on Behalf of Arizona State UniversityInventors: Stuart Lindsay, Jin He, Peiming Zhang, Kevin Reinhart
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Patent number: 7927833Abstract: A composition and method for enhancing immune response in a living organism is disclosed. In particular, the present disclosure provides an adjuvant peptide for use in raising an immune response to an antigen. The adjuvant peptide is selected from a group of peptides with an HIV-related sequence. Additionally, the adjuvant peptide can comprise a fusion-protein that acts as a mucosal adjuvant. The adjuvant peptide can be transformed into one or more living cells, such that the mucosal adjuvant can be produced in living cells and then administered by systemic, mucosal or epidermal delivery.Type: GrantFiled: September 16, 2008Date of Patent: April 19, 2011Assignee: Arizona Board of Regents, Acting For and on Behalf of Arizona State UniversityInventors: Tsafrir S. Mor, Nobuyuki Matoba, Charles J. Arntzen
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Publication number: 20110038497Abstract: The present invention relates generally to microphone devices useful, for example, in hearing aid devices. The present invention relates more particularly to tunable microphone devices, and methods used to tune them. One aspect of the present invention is a microphone device that includes at least one microphone element. Each microphone element comprises a diaphragm suspended by a substrate; a solid electrolyte disposed on the diaphragm; an anode electrically coupled to the solid electrolyte; and a cathode electrically coupled to the solid electrolyte. The solid electrolyte is disposed between the anode and the cathode, such that ions flowing from the anode to the cathode travel through the solid electrolyte and electrons can flow in the opposite direction.Type: ApplicationFiled: October 15, 2008Publication date: February 17, 2011Applicant: Arizona Board of Regents, acting for and on behalf of Arizona State UniversityInventors: Junseok Chae, Michael Kozicki
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Publication number: 20100286747Abstract: For analyzing a multi-component system, a method acquires a plurality of signals, each having a different spatial location of the multi-component system, and generates dynamic profiles for each of the plurality of signals. Each of the plurality of dynamic profiles reflects dynamic characteristics of the corresponding signal in accordance with each one of a plurality of dynamic measures. The method selects pairs of dynamic profiles from the acquired dynamic profiles based on a predetermined level of synchronization and generates a statistical measure for each of the selected plurality of pairs of dynamic profiles. The method characterizes state dynamics of the multi-component system as a function of at least one of the generated statistical measures, and generates a signal indicative of the characterized state dynamics of the multi-component system.Type: ApplicationFiled: September 29, 2008Publication date: November 11, 2010Applicant: Arizona Board of Regents, Acting for and on Behalf of Arizona State UniversityInventors: Shivkumar Sabesan, Leonidas D. Iasemidis
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Publication number: 20100248977Abstract: The present invention relates to the identification and selection of attachment molecules that attach/immobilize an entity having a detectable activity or property on a support in an orientation that provides a detectable activity or property, and to surfaces made of the attachment molecules.Type: ApplicationFiled: September 19, 2008Publication date: September 30, 2010Applicant: Arizona Board of Regents acting for and on behalf of Arizona State UniversityInventors: Stephen A. Johnston, Chris W. Diehnelt
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Publication number: 20090175949Abstract: Delivery of bioactive molecules (BAMs) to organelles, cells, tissues, or animals with high efficiency is desirable. Novel compositions for highly efficient delivery of bioactive molecules by biolistic methods are described. The novel compositions include novel microparticle cores, microparticle core/BAM complexes, microparticle core/nanoparticle complexes and multilayer-microparticle core/BAM complexes. Any one of these may be further modified to include targeting agents.Type: ApplicationFiled: December 19, 2008Publication date: July 9, 2009Applicant: Arizona Board of Regents Acting for and on Behalf of Arizona State UniversityInventors: Alexandre Yurievich BOROVKOV, Sergei Alex SVAROVSKY, Kathryn Frances SYKES
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Publication number: 20090131672Abstract: The present invention involves use of the compounds narciclasine (2a) and 7-deoxy-narciclasine (2c), which are obtained via isolation from the medicinal plant species Narcissus (Amaryllidaceae), as precursors in a novel synthesis method in which each of these compounds are selectively hydrogenated to produce trans-dihydronarciclasine (1a) and 7-deoxy-trans-dihydronarciclasine (1c). Also described herein is a novel synthesis method for producing sodium narcistatin (11) from narciclasine (2a). Further described herein are certain novel 3,4-cyclic phosphate prodrugs, including sodium-7-deoxynarcistatin (8), sodium-7-deoxy-transdihydronarcistatin (9), and sodium transdihydronarcistatin (10).Type: ApplicationFiled: January 17, 2006Publication date: May 21, 2009Applicant: ARIZONA BOARD OF REGENTS acting on behalf of ARIZONA STATE UNIVERSITYInventors: George R. Pettit, Noeleen Melody
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Patent number: 7510942Abstract: A method of increasing the work function of micro-electrodes includes providing a metal or silica surface functionalized with reactive groups and contacting the functionalized surface with a solution of at least one biochemical, having a permanent dipole moment and being capable of self assembly, for a sufficient time for the biochemical to self assemble molecularly (SAM) on the functionalized surface. The biochemical can be aminopropyl triethoxy silane, fatty acids, organosilicon derivatives, organosulfur compounds, alkyl chains, or diphosphates. Use in a wide variety of metals and metallic compounds is disclosed.Type: GrantFiled: November 24, 2004Date of Patent: March 31, 2009Assignee: Arizona Board of Regents, Acting for and on behalf of Arizona State UniversityInventors: Sandwip K. Dey, Diefeng Gu, Rizaldi Sistiabudi, Jaydeb Goswami
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Publication number: 20090042741Abstract: A microarray has a substrate and a plurality of three-dimensional microstructures formed on the substrate. Each of the three-dimensional microstructures is made with polymer material and has a plurality of reactive sites formed on its surface and interior pores. The polymer material is polymer gel or other porous polymer. The combination of three-dimensional microstructure and porous polymer material increases the surface area of the microstructure and density of the reactive sites on the surface of the microstructures. The higher density of reactive sites increases the luminescence, visibility or instrument detectability of the interaction between analytes and reactive microstructure sites on the microarray. A plurality of chemical groups are respectively attached to the reactive sites. The chemical groups each include at least one monomer. The chemical groups may have different chemical structures. A plurality of microchannels can be formed around the microstructures for isolation.Type: ApplicationFiled: May 6, 2005Publication date: February 12, 2009Applicant: ARIZONA BOARD OF REGENTS, ACTING FOR AND ON BEHALF OF ARIZONA STATE UNIVERSITYInventors: Trent R. Northen, Neal W. Woodbury
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Patent number: 7438914Abstract: A composition and method for enhancing immune response in a living organism is disclosed. In particular, the present disclosure provides an adjuvant peptide for use in raising an immune response to an antigen. The adjuvant peptide is selected from a group of peptides with an HIV-related sequence. Additionally, the adjuvant peptide can comprise a fusion-protein that acts as a mucosal adjuvant. The adjuvant peptide can be transformed into one or more living cells, such that the mucosal adjuvant can be produced in living cells and then administered by systemic, mucosal or epidermal delivery.Type: GrantFiled: March 6, 2003Date of Patent: October 21, 2008Assignee: Arizona Board of Regents, Acting for and on Behalf of Arizona State UniversityInventors: Tsafrir S. Mor, Nobuyuki Matoba, Charles J. Arntzen
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Publication number: 20080164570Abstract: Semiconductor structures are provided comprising a substrate and a epitaxial layer formed over the substrate, wherein the epitaxial layer comprises B; and one or more element selected from the group consisting of Zr, Hf and Al and has a thickness greater than 50 nm. Further, methods for integrating Group III nitrides onto a substrate comprising, forming an epitaxial buffer layer of a diboride of Zr, Hf, Al, or mixtures thereof, over a substrate; and forming a Group III nitride layer over the buffer layer, are provided which serve to thermally decouple the buffer layer from the underlying substrate, thereby greatly reducing the strain induced in the semiconductor structures upon fabrication and/or operation.Type: ApplicationFiled: January 4, 2008Publication date: July 10, 2008Applicant: Arizona Board of Regents, acting for and on behalf of Arizona State UniversityInventors: John Kouvetakis, Radek Roucka
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Patent number: 7374738Abstract: Novel superhard dielectric compounds useful as gate dielectrics discovered. Low temperature methods for making thin films of the compounds on substrate silicon are provided. The methods comprise the step of contacting a precursor having the formula H3X—O—XH3, wherein X is silicon or carbon with a compound comprising boron or nitrogen in a chemical vapor deposition (CVD) chamber or with one or more atomic elements in a molecular beam epitaxial deposition (MBE) chamber. These thin film constructs are useful as components of microelectronic devices, and specifically as gate dielectrics in CMOS devices.Type: GrantFiled: October 10, 2002Date of Patent: May 20, 2008Assignee: Arizona Board of Regents, acting for and on behalf of, Arizona State UniversityInventors: John Kouvetakis, Ignatius S. Tsong, Levi Torrison, John Tolle
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Patent number: 7372333Abstract: Embodiments of RF power amplifiers are disclosed that include switched-mode power amplifiers supplied by synchronous buck DC-DC converters. The switched-mode power amplifiers can be used to amplify a limited form of an RF input signal and the supply to the switched-mode power amplifier is varied in response to the envelope of the RF input signal. One embodiment includes a switched-mode power amplifier connected to a synchronous buck DC-DC converter.Type: GrantFiled: February 3, 2004Date of Patent: May 13, 2008Assignee: Arizona Board of Regents, acting for and on behalf of Arizona State UniversityInventors: Siamak Abedinpour, Sayfe Kiaei
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Patent number: RE41693Abstract: Excitation of a triad artificial photosynthetic reaction center consisting of a porphyrin (P) convalently linked to a fullerene electron acceptor (C60) and a carotenoid secondary donor (C) leads to the formation of a long-lived C+-P-C60? charge-separated state via photoinduced electron transfer. This reaction occurs in a frozen organic glass down to at least 8 K. At 77 K, charge recombination of C*+-P-C60? occurs on the ?s time scale, and yields solely the carotenoid triplet state. In the presence of a small (20 mT) static magnetic field, the lifetime of the charge-separated state is increased by 50%. This is ascribed to the effect of the magnetic field on interconversion of the singlet and triplet biradicals. At zero field, the initially formed singlet biradical state is in equilibrium with the three triplet biradical sublevels, and all four states have comparable populations. Decay to the carotenoid triplet only occurs from the three triplet sublevels.Type: GrantFiled: November 30, 2006Date of Patent: September 14, 2010Assignee: Arizona Board of Regents, Acting for and on Behalf of, Arizona State UniversityInventors: John D. Gust, Jr., Ana L. Moore, Thomas Moore