Patents by Inventor Ronald F. Renzi
Ronald F. Renzi has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8394312Abstract: Methods for making a microfluidic device according to embodiments of the present invention include defining˜cavity. Polymer precursor solution is positioned in the cavity, and exposed to light to begin the polymerization process and define a microchannel. In some embodiments, after the polymerization process is partially complete, a solvent rinse is performed, or fresh polymer precursor introduced into the microchannel. This may promote removal of unpolymerized material from the microchannel and enable smaller feature sizes. The polymer precursor solution may contain an iniferter. Polymerized features therefore may be capped with the iniferter, which is photoactive. The iniferter may aid later binding of a polyacrylamide gel to the microchannel surface.Type: GrantFiled: September 20, 2011Date of Patent: March 12, 2013Assignee: Sandia CorporationInventors: Gregory J. Sommer, Anson V. Hatch, Ying-Chih Wang, Anup K. Singh, Ronald F. Renzi, Mark R. Claudnic
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Publication number: 20130020492Abstract: A neutron detector with monolithically integrated readout circuitry, including: a bonded semiconductor die; an ion chamber formed in the bonded semiconductor die; a first electrode and a second electrode formed in the ion chamber; a neutron absorbing material filling the ion chamber; and the readout circuitry which is electrically coupled to the first and second electrodes. The bonded semiconductor die includes an etched semiconductor substrate bonded to an active semiconductor substrate. The readout circuitry is formed in a portion of the active semiconductor substrate. The ion chamber has a substantially planar first surface on which the first electrode is formed and a substantially planar second surface, parallel to the first surface, on which the second electrode is formed. Desirably, the distance between the first electrode and the second electrode may be equal to or less than the 50% attenuation length for neutrons in the neutron absorbing material filling the ion chamber.Type: ApplicationFiled: July 26, 2012Publication date: January 24, 2013Inventors: Mark S. Derzon, Paul C. Galambos, Ronald F. Renzi
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Patent number: 8163254Abstract: A micromanifold for connecting external capillaries to the inlet and/or outlet ports of a microfluidic device can employ a ferrule/capillary assembly that includes: (a) a ferrule comprising an elongated member and having a bore traversing from a proximal end to a distal end of the member, wherein the bore has an inner surface and wherein the distal end of the ferrule has a tapered, threaded exterior surface, and (b) a capillary that is positioned within the bore wherein the capillary's outer surface is in direct contact with the bore's inner surface. No mating sleeve is required for the one-piece ferrule. Alternatively, the capillaries can be bonded to channels that traverse the manifold and therefore obviate the need for a ferrule.Type: GrantFiled: June 1, 2009Date of Patent: April 24, 2012Assignee: Sandia CorporationInventors: Ronald F. Renzi, Scott M. Ferko
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Patent number: 8162149Abstract: Disclosed herein are methods and devices utilizing a fluid displacer in a closed-loop fluid circuit.Type: GrantFiled: April 16, 2009Date of Patent: April 24, 2012Assignee: Sandia CorporationInventors: Thomas D. Perroud, Kamlesh D. Patel, Ronald F. Renzi
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Publication number: 20120085644Abstract: Embodiments of fluid distribution manifolds, cartridges, and microfluidic systems are described herein. Fluid distribution manifolds may include an insert member and a manifold base and may define a substantially closed channel within the manifold when the insert member is press-fit into the base. Cartridges described herein may allow for simultaneous electrical and fluidic interconnection with an electrical multiplex board and may be held in place using magnetic attraction.Type: ApplicationFiled: October 7, 2010Publication date: April 12, 2012Inventors: Ronald F. Renzi, Gregory J. Sommer, Anup K. Singh, Anson V. Hatch, Mark R. Claudnic, Ying-Chih Wang, James L. Van De Vreugde
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Publication number: 20120004144Abstract: We have developed an microelectroporation device that combines microarrays of oligonucleotides, microfluidic channels, and electroporation for cell transfection and high-throughput screening applications (e.g. RNA interference screens). Microarrays allow the deposition of thousands of different oligonucleotides in microscopic spots. Microfluidic channels and microwells enable efficient loading of cells into the device and prevent cross-contamination between different oligonucleotides spots. Electroporation allows optimal transfection of nucleic acids into cells (especially hard-to-transfect cells such as primary cells) by minimizing cell death while maximizing transfection efficiency. This invention has the advantage of a higher throughput and lower cost, while preventing cross-contamination compared to conventional screening technologies. Moreover, this device does not require bulky robotic liquid handling equipment and is inherently safer given that it is a closed system.Type: ApplicationFiled: June 30, 2011Publication date: January 5, 2012Inventors: Thomas D. Perroud, Ronald F. Renzi, Oscar Negrete, Mark R. Claudnic
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Patent number: 8047829Abstract: Methods for making a micofluidic device according to embodiments of the present invention include defining a cavity. Polymer precursor solution is positioned in the cavity, and exposed to light to begin the polymerization process and define a microchannel. In some embodiments, after the polymerization process is partially complete, a solvent rinse is performed, or fresh polymer precursor introduced into the microchannel. This may promote removal of unpolymerized material from the microchannel and enable smaller feature sizes. The polymer precursor solution may contain an iniferter. Polymerized features therefore may be capped with the iniferter, which is photoactive. The iniferter may aid later binding of a polyacrylamide gel to the microchannel surface.Type: GrantFiled: January 26, 2009Date of Patent: November 1, 2011Assignee: Sandia CorporationInventors: Gregory J. Sommer, Anson V. Hatch, Ying-Chih Wang, Anup K. Singh, Ronald F. Renzi, Mark R. Claudnic
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Patent number: 7592139Abstract: Devices and methods for thermally lysing of biological material, for example vegetative bacterial cells and bacterial spores, are provided. Hot solution methods for solubilizing bacterial spores are described. Systems for direct analysis are disclosed including thermal lysers coupled to sample preparation stations. Integrated systems capable of performing sample lysis, labeling and protein fingerprint analysis of biological material, for example, vegetative bacterial cells, bacterial spores and viruses are provided.Type: GrantFiled: February 16, 2005Date of Patent: September 22, 2009Assignee: Sandia National LaboratoriesInventors: Jason A. A. West, Kyle W. Hukari, Kamlesh D. Patel, Kenneth A. Peterson, Ronald F. Renzi
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Publication number: 20090215023Abstract: Devices and methods for thermally lysing of biological material, for example vegetative bacterial cells and bacterial spores, are provided. Hot solution methods for solubilizing bacterial spores are described. Systems for direct analysis are disclosed including thermal lysers coupled to sample preparation stations. Integrated systems capable of performing sample lysis, labeling and protein fingerprint analysis of biological material, for example, vegetative bacterial cells, bacterial spores and viruses are provided.Type: ApplicationFiled: February 16, 2005Publication date: August 27, 2009Inventors: Jason A. A. West, Kyle W. Hukari, Kamlesh D. Patel, Kenneth A. Peterson, Ronald F. Renzi
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Patent number: 7553455Abstract: A micromanifold for connecting external capillaries to the inlet and/or outlet ports of a microfluidic device can employ a ferrule/capillary assembly that includes: (a) a ferrule comprising an elongated member and having a bore traversing from a proximal end to a distal end of the member, wherein the bore has an inner surface and wherein the distal end of the ferrule has a tapered, threaded exterior surface, and (b) a capillary that is positioned within the bore wherein the capillary's outer surface is in direct contact with the bore's inner surface. No mating sleeve is required for the one-piece ferrule. Alternatively, the capillaries can be bonded to channels that traverse the manifold and therefore obviate the need for a ferrule.Type: GrantFiled: April 2, 2003Date of Patent: June 30, 2009Assignee: Sandia CorporationInventors: Ronald F. Renzi, Scott Ferko
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Patent number: 7452507Abstract: Portable devices and methods for determining the presence of a target analyte using a portable device are provided. The portable device is preferably hand-held. A sample is injected to the portable device. A microfluidic separation is performed within the portable device and at least one separated component detected by a detection module within the portable device, in embodiments of the invention. A target analyte is identified, based on the separated component, and the presence of the target analyte is indicated on an output interface of the portable device, in accordance with embodiments of the invention.Type: GrantFiled: August 4, 2003Date of Patent: November 18, 2008Assignee: Sandia CorporationInventors: Ronald F. Renzi, Karl Wally, Robert W. Crocker, James F. Stamps, Stewart K. Griffiths, Julia A. Fruetel, Brent A. Horn, Isaac R. Shokair, Daniel D. Yee, Victoria A. VanderNoot, Boyd J. Wiedenman, Jason A. A. West, Scott M. Ferko
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Patent number: 7351380Abstract: Injection molding is used to form microfluidic devices with integrated functional components. One or more functional components are placed in a mold cavity which is then closed. Molten thermoplastic resin is injected into the mold and then cooled, thereby forming a solid substrate including the functional component(s). The solid substrate including the functional component(s) is then bonded to a second substrate which may include microchannels or other features.Type: GrantFiled: January 8, 2004Date of Patent: April 1, 2008Assignee: Sandia CorporationInventors: Blake Simmons, Linda Domeier, Noble Woo, Timothy Shepodd, Ronald F. Renzi
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Patent number: 7311882Abstract: A manifold for connecting external capillaries to the inlet and/or outlet ports of a microfluidic device for high pressure applications is provided. The fluid connector for coupling at least one fluid conduit to a corresponding port of a substrate that includes: (i) a manifold comprising one or more channels extending therethrough wherein each channel is at least partially threaded, (ii) one or more threaded ferrules each defining a bore extending therethrough with each ferrule supporting a fluid conduit wherein each ferrule is threaded into a channel of the manifold, (iii) a substrate having one or more ports on its upper surface wherein the substrate is positioned below the manifold so that the one or more ports is aligned with the one or more channels of the manifold, and (iv) means for applying an axial compressive force to the substrate to couple the one or more ports of the substrate to a corresponding proximal end of a fluid conduit.Type: GrantFiled: January 24, 2003Date of Patent: December 25, 2007Assignee: Sandia National LaboratoriesInventor: Ronald F. Renzi
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Patent number: 7182371Abstract: A manifold for connecting external capillaries to the inlet and/or outlet ports of a microfluidic device for high pressure applications is provided. The fluid connector for coupling at least one fluid conduit to a corresponding port of a substrate that includes: (i) a manifold comprising one or more channels extending therethrough wherein each channel is at least partially threaded, (ii) one or more threaded ferrules each defining a bore extending therethrough with each ferrule supporting a fluid conduit wherein each ferrule is threaded into a channel of the manifold, (iii) a substrate having one or more ports on its upper surface wherein the substrate is positioned below the manifold so that the one or more ports is aligned with the one or more channels of the manifold, and (iv) device to apply an axial compressive force to the substrate to couple the one or more ports of the substrate to a corresponding proximal end of a fluid conduit.Type: GrantFiled: November 30, 2004Date of Patent: February 27, 2007Assignee: Sandia National LaboratoriesInventor: Ronald F. Renzi
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Patent number: 6998598Abstract: A modular optical detector system. The detector system is designed to detect the presence of molecules or molecular species by inducing fluorescence with exciting radiation and detecting the emitted fluorescence. Because the system is capable of accurately detecting and measuring picomolar concentrations it is ideally suited for use with microchemical analysis systems generally and capillary chromatographic systems in particular. By employing a modular design, the detector system provides both the ability to replace various elements of the detector system without requiring extensive realignment or recalibration of the components as well as minimal user interaction with the system. In addition, the modular concept provides for the use and addition of a wide variety of components, including optical elements (lenses and filters), light sources, and detection means, to fit particular needs.Type: GrantFiled: August 4, 2003Date of Patent: February 14, 2006Assignee: Sandia National LabroatoriesInventors: Brent A. Horn, Ronald F. Renzi
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Patent number: 6966336Abstract: A microvalve for extracting small volume samples into analytical devices, e.g.Type: GrantFiled: January 24, 2003Date of Patent: November 22, 2005Assignee: Sandia National LaboratoriesInventor: Ronald F. Renzi
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Patent number: 6926313Abstract: A high pressure connector capable of operating at pressures of 40,000 psi or higher is provided. This connector can be employed to position a first fluid-bearing conduit that has a proximal end and a distal end to a second fluid-bearing conduit thereby providing fluid communication between the first and second fluid-bearing conduits.Type: GrantFiled: April 2, 2003Date of Patent: August 9, 2005Assignee: Sandia National LaboratoriesInventor: Ronald F. Renzi
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Patent number: 6918573Abstract: A high pressure microvalve for connecting a first fluid-bearing conduit to a second fluid-bearing conduit is provided.Type: GrantFiled: January 27, 2003Date of Patent: July 19, 2005Assignee: Sandia National LaboratoriesInventor: Ronald F. Renzi
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Patent number: 6832787Abstract: A manifold for connecting external capillaries to the inlet and/or outlet ports of a microfluidic device for high pressure applications is provided. The fluid connector for coupling at least one fluid conduit to a corresponding port of a substrate that includes: (i) a manifold comprising one or more channels extending therethrough wherein each channel is at least partially threaded, (ii) one or more threaded ferrules each defining a bore extending therethrough with each ferrule supporting a fluid conduit wherein each ferrule is threaded into a channel of the manifold, (iii) a substrate having one or more ports on its upper surface wherein the substrate is positioned below the manifold so that the one or more ports is aligned with the one or more channels of the manifold, and (iv) device to apply an axial compressive force to the substrate to couple the one or more ports of the substrate to a corresponding proximal end of a fluid conduit.Type: GrantFiled: January 24, 2003Date of Patent: December 21, 2004Assignee: Sandia National LaboratoriesInventor: Ronald F. Renzi
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Publication number: 20040126279Abstract: Portable devices and methods for determining the presence of a target analyte using a portable device are provided. The portable device is preferably hand-held. A sample is injected to the portable device. A microfluidic separation is performed within the portable device and at least one separated component detected by a detection module within the portable device, in embodiments of the invention. A target analyte is identified, based on the separated component, and the presence of the target analyte is indicated on an output interface of the portable device, in accordance with embodiments of the invention.Type: ApplicationFiled: August 4, 2003Publication date: July 1, 2004Inventors: Ronald F. Renzi, Karl Wally, Robert W. Crocker, James F. Stamps, Stewart K. Griffiths, Julia A. Fruetel, Brent A. Horn, Isaac R. Shokair, Daniel D. Yee, Victoria A. Vandernoot, Boyd J. Wiedenmann, Jason A. A. West, Scott M. Ferko