Patents by Inventor Stanley H. Kravitz
Stanley H. Kravitz 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: 7427302Abstract: A compact solid source of hydrogen gas, where the gas is generated by contacting water with micro-disperse particles of sodium borohydride in the presence of a catalyst, such as cobalt or ruthenium. The micro-disperse particles can have a substantially uniform diameter of 1-10 microns, and preferably about 3-5 microns. Ruthenium or cobalt catalytic nanoparticles can be incorporated in the micro-disperse particles of sodium borohydride, which allows a rapid and complete reaction to occur without the problems associated with caking and scaling of the surface by the reactant product sodium metaborate. A closed loop water management system can be used to recycle wastewater from a PEM fuel cell to supply water for reacting with the micro-disperse particles of sodium borohydride in a compact hydrogen gas generator. Capillary forces can wick water from a water reservoir into a packed bed of micro-disperse fuel particles, eliminating the need for using an active pump.Type: GrantFiled: June 8, 2007Date of Patent: September 23, 2008Inventors: Stanley H. Kravitz, Andrew M. Hecht, Alan P. Sylwester, Nelson S. Bell
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Patent number: 7306780Abstract: A compact solid source of hydrogen gas, where the gas is generated by contacting water with micro-disperse particles of sodium borohydride in the presence of a catalyst, such as cobalt or ruthenium. The micro-disperse particles can have a substantially uniform diameter of 1-10 microns, and preferably about 3-5 microns. Ruthenium or cobalt catalytic nanoparticles can be incorporated in the micro-disperse particles of sodium borohydride, which allows a rapid and complete reaction to occur without the problems associated with caking and scaling of the surface by the reactant product sodium metaborate. A closed loop water management system can be used to recycle wastewater from a PEM fuel cell to supply water for reacting with the micro-disperse particles of sodium borohydride in a compact hydrogen gas generator. Capillary forces can wick water from a water reservoir into a packed bed of micro-disperse fuel particles, eliminating the need for using an active pump.Type: GrantFiled: April 23, 2004Date of Patent: December 11, 2007Assignee: Sandia CorporationInventors: Stanley H. Kravitz, Andrew M. Hecht, Alan P. Sylwester, Nelson S. Bell
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Patent number: 7132054Abstract: An inexpensive and rapid method for fabricating arrays of hollow microneedles uses a photoetchable glass. Furthermore, the glass hollow microneedle array can be used to form a negative mold for replicating microneedles in biocompatible polymers or metals. These microneedle arrays can be used to extract fluids from plants or animals. Glucose transport through these hollow microneedles arrays has been found to be orders of magnitude more rapid than natural diffusion.Type: GrantFiled: September 8, 2004Date of Patent: November 7, 2006Assignee: Sandia CorporationInventors: Stanley H. Kravitz, David Ingersoll, Carrie Schmidt, Jeb Flemming
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Patent number: 7022287Abstract: The present invention discloses an electrochemical device for detecting single particles, and methods for using such a device to achieve high sensitivity for detecting particles such as bacteria, viruses, aggregates, immuno-complexes, molecules, or ionic species. The device provides for affinity-based electrochemical detection of particles with single-particle sensitivity. The disclosed device and methods are based on microelectrodes with surface-attached, affinity ligands (e.g., antibodies, combinatorial peptides, glycolipids) that bind selectively to some target particle species. The electrodes electrolyze chemical species present in the particle-containing solution, and particle interaction with a sensor element modulates its electrolytic activity. The devices may be used individually, employed as sensors, used in arrays for a single specific type of particle or for a range of particle types, or configured into arrays of sensors having both these attributes.Type: GrantFiled: May 8, 2002Date of Patent: April 4, 2006Assignee: Sandia National LaboratoriesInventors: Joseph Schoeniger, Albert W. Flounders, Robert C. Hughes, Antonio J. Ricco, Karl Wally, Stanley H. Kravitz, Richard P. Janek
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Patent number: 6890677Abstract: Fuel cells and a novel membrane for use in fuel cells and manufacturing processes.Type: GrantFiled: January 24, 2002Date of Patent: May 10, 2005Assignee: Sandia CorporationInventors: Tom Klitsner, Alan P. Sylwester, Gail N. Ryba, Thomas E. Zipperian, Stanley H. Kravitz, Andrew Hecht
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Patent number: 6841290Abstract: Fuel cells and a novel membrane for use in fuel cells and manufacturing processes.Type: GrantFiled: October 30, 2001Date of Patent: January 11, 2005Assignee: Sandia CorporationInventors: Tom Klitsner, Alan P. Sylwester, Gail N. Ryba, Thomas E. Zipperian, Stanley H. Kravitz, Andrew Hecht
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Patent number: 6774532Abstract: A self-powered microthermionic converter having an internal thermal power source integrated into the microthermionic converter. These converters can have high energy-conversion efficiencies over a range of operating temperatures. Microengineering techniques are used to manufacture the converter. The utilization of an internal thermal power source increases potential for mobility and incorporation into small devices. High energy efficiency is obtained by utilization of micron-scale interelectrode gap spacing. Alpha-particle emitting radioisotopes can be used for the internal thermal power source, such as curium and polonium isotopes.Type: GrantFiled: December 20, 2001Date of Patent: August 10, 2004Assignee: Sandia CorporationInventors: Albert C. Marshall, Donald B. King, Kevin R. Zavadil, Stanley H. Kravitz, Chris P. Tigges, Gregory A. Vawter
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Patent number: 6746496Abstract: A compact solid source of hydrogen gas, where the gas is generated by contacting water with micro-disperse particles of sodium borohydride in the presence of a catalyst, such as cobalt or ruthenium. The micro-disperse particles can have a substantially uniform diameter of 1-10 microns, and preferably about 3-5 microns. Ruthenium or cobalt catalytic nanoparticles can be incorporated in the micro-disperse particles of sodium borohydride, which allows a rapid and complete reaction to occur without the problems associated with caking and scaling of the surface by the reactant product sodium metaborate. A closed loop water management system can be used to recycle wastewater from a PEM fuel cell to supply water for reacting with the micro-disperse particles of sodium borohydride in a compact hydrogen gas generator. Capillary forces can wick water from a water reservoir into a packed bed of micro-disperse fuel particles, eliminating the need for using an active pump.Type: GrantFiled: July 9, 2002Date of Patent: June 8, 2004Assignee: Sandia CorporationInventors: Stanley H. Kravitz, Andrew M. Hecht, Alan P. Sylwester, Nelson S. Bell
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Patent number: 6673254Abstract: Methods for fabricating a highly effective, micron-scale micro heat barrier structure and process for manufacturing a micro heat barrier based on semiconductor and/or MEMS fabrication techniques. The micro heat barrier has an array of non-metallic, freestanding microsupports with a height less than 100 microns, attached to a substrate. An infrared reflective membrane (e.g., 1 micron gold) can be supported by the array of microsupports to provide radiation shielding. The micro heat barrier can be evacuated to eliminate gas phase heat conduction and convection. Semi-isotropic, reactive ion plasma etching can be used to create a microspike having a cusp-like shape with a sharp, pointed tip (<0.1 micron), to minimize the tip's contact area. A heat source can be placed directly on the microspikes. The micro heat barrier can have an apparent thermal conductivity in the range of 10−6 to 10−7 W/m-K. Multiple layers of reflective membranes can be used to increase thermal resistance.Type: GrantFiled: December 19, 2001Date of Patent: January 6, 2004Assignee: Sandia CorporationInventors: Albert C. Marshall, Stanley H. Kravitz, Chris P. Tigges, Gregory A. Vawter
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Publication number: 20030211637Abstract: The present invention discloses an electrochemical device for detecting single particles, and methods for using such a device to achieve high sensitivity for detecting particles such as bacteria, viruses, aggregates, immuno-complexes, molecules, or ionic species. The device provides for affinity-based electrochemical detection of particles with single-particle sensitivity. The disclosed device and methods are based on microelectrodes with surface-attached, affinity ligands (e.g., antibodies, combinatorial peptides, glycolipids) that bind selectively to some target particle species. The electrodes electrolyze chemical species present in the particle-containing solution, and particle interaction with a sensor element modulates its electrolytic activity. The devices may be used individually, employed as sensors, used in arrays for a single specific type of particle or for a range of particle types, or configured into arrays of sensors having both these attributes.Type: ApplicationFiled: May 8, 2002Publication date: November 13, 2003Inventors: Joseph Schoeniger, Albert W. Flounders, Robert C. Hughes, Antonio J. Ricco, Karl Wally, Stanley H. Kravitz, Richard P. Janek
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Patent number: 6605339Abstract: A highly effective, micron-scale micro heat barrier structure and process for manufacturing a micro heat barrier based on semiconductor and/or MEMS fabrication techniques. The micro heat barrier has an array of non-metallic, freestanding microsupports with a height less than 100 microns, attached to a substrate. An infrared reflective membrane (e.g., 1 micron gold) can be supported by the array of microsupports to provide radiation shielding. The micro heat barrier can be evacuated to eliminate gas phase heat conduction and convection. Semi-isotropic, reactive ion plasma etching can be used to create a microspike having a cusp-like shape with a sharp, pointed tip (<0.1 micron), to minimize the tip's contact area. A heat source can be placed directly on the microspikes. The micro heat barrier can have an apparent thermal conductivity in the range of 10−6 to 10−7 W/m-K. Multiple layers of reflective membranes can be used to increase thermal resistance.Type: GrantFiled: December 19, 2001Date of Patent: August 12, 2003Assignee: Sandia CorporationInventors: Albert C. Marshall, Stanley H. Kravitz, Chris P. Tigges, Gregory A. Vawter
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Publication number: 20030082431Abstract: Fuel cells and a novel membrane for use in fuel cells and manufacturing processes.Type: ApplicationFiled: January 24, 2002Publication date: May 1, 2003Inventors: Tom Klitsner, Alan P. Sylwester, Gail N. Ryba, Thomas E. Zipperian, Stanley H. Kravitz, Andrew Hecht
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Publication number: 20020122972Abstract: Fuel cells and a novel membrane for use in fuel cells and manufacturing processes.Type: ApplicationFiled: October 30, 2001Publication date: September 5, 2002Inventors: Tom Klitsner, Alan P. Sylwester, Gail N. Ryba, Thomas E. Zipperian, Stanley H. Kravitz, Andrew Hecht
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Patent number: 6432577Abstract: An apparatus and method for fabricating a microbattery that uses silicon as the structural component, packaging component, and semiconductor to reduce the weight, size, and cost of thin film battery technology is described. When combined with advanced semiconductor packaging techniques, such a silicon-based microbattery enables the fabrication of autonomous, highly functional, integrated microsystems having broad applicability.Type: GrantFiled: June 29, 2000Date of Patent: August 13, 2002Assignee: Sandia CorporationInventors: Randy J. Shul, Stanley H. Kravitz, Todd R. Christenson, Thomas E. Zipperian, David Ingersoll
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Patent number: 6056044Abstract: An improved planar heat pipe wick structure having projections formed by micromachining processes. The projections form arrays of interlocking, semi-closed structures with multiple flow paths on the substrate. The projections also include overhanging caps at their tops to increase the capillary pumping action of the wick structure. The capped projections can be formed in stacked layers. Another layer of smaller, more closely spaced projections without caps can also be formed on the substrate in between the capped projections. Inexpensive materials such as Kovar can be used as substrates, and the projections can be formed by electrodepositing nickel through photoresist masks.Type: GrantFiled: December 10, 1997Date of Patent: May 2, 2000Assignee: Sandia CorporationInventors: David A. Benson, Charles V. Robino, David W. Palmer, Stanley H. Kravitz
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Patent number: 5790730Abstract: A structure and method for packaging an integrated optic circuit. The package comprises a first wall having a plurality of microlenses formed therein to establish channels of optical communication with an integrated optic circuit within the package. A first registration pattern is provided on an inside surface of one of the walls of the package for alignment and attachment of the integrated optic circuit. The package in one embodiment may further comprise a fiber holder for aligning and attaching a plurality of optical fibers to the package and extending the channels of optical communication to the fibers outside the package. In another embodiment, a fiber holder may be used to hold the fibers and align the fibers to the package. The fiber holder may be detachably connected to the package.Type: GrantFiled: November 10, 1994Date of Patent: August 4, 1998Inventors: Stanley H. Kravitz, G. Ronald Hadley, Mial E. Warren, Richard F. Carson, Marcelino G. Armendariz
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Patent number: 5659647Abstract: A fiber alignment apparatus includes a micro-machined nickel spring that captures and locks arrays of single mode fibers into position. The design consists of a movable nickel leaf shaped spring and a fixed pocket where fibers are held. The fiber is slid between the spring and a fixed block, which tensions the spring. When the fiber reaches the pocket, it automatically falls into the pocket and is held by the pressure of the leaf spring.Type: GrantFiled: October 30, 1995Date of Patent: August 19, 1997Assignee: Sandia CorporationInventors: Stanley H. Kravitz, Mial Evans Warren, Morris Burton Snipes, Jr., Marcelino Guadalupe Armendariz, James Cole Word, V.
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Patent number: 5333000Abstract: An optical-based RF beam steering system for phased-array antennas comprising a photonic integrated circuit (PIC). The system is based on optical heterodyning employed to produce microwave phase shifting by a monolithic PIC constructed entirely of passive components. Microwave power and control signal distribution to the antenna is accomplished by optical fiber, permitting physical separation of the PIC and its control functions from the antenna. The system reduces size, weight, complexity, and cost of phased-array antenna systems.Type: GrantFiled: April 3, 1992Date of Patent: July 26, 1994Assignee: The United States of America as represented by the United States Department of EnergyInventors: Vincent M. Hietala, Stanley H. Kravitz, Gregory A. Vawter
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Patent number: 5237629Abstract: A digitally controlled distributed phase shifter is comprised of N phase shifters. Digital control is achieved by using N binary length-weighted electrodes located on the top surface of a waveguide. A control terminal is attached to each electrode thereby allowing the application of a control signal. The control signal is either one or two discrete bias voltages. The application of the discrete bias voltages changes the modal index of a portion of the waveguide that corresponds to a length of the electrode to which the bias voltage is applied, thereby causing the phase to change through the underlying portion of the waveguide. The digitally controlled distributed phase shift network has a total phase shift comprised of the sum of the individual phase shifters.Type: GrantFiled: March 19, 1992Date of Patent: August 17, 1993Assignee: The United States of America as represented by the United States Department of EnergyInventors: Vincent M. Hietala, Stanley H. Kravitz, Gregory A. Vawter
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Patent number: 4715049Abstract: A clock recovery and data retiming circuit is disclosed which utilizes a SAW filter to form the recovered clock signal. The phase shift of the received data signal associated with various attenuation and distortion effects of the communication channel is compensated for and removed from the retimed data signal by adjusting the phase of the SAW filter.Type: GrantFiled: March 12, 1986Date of Patent: December 22, 1987Assignee: American Telephone and Telegraph Company, AT&T Bell LaboratoriesInventors: George E. Andrews, Paul C. Davis, Dennis C. Farley, Stanley H. Kravitz, Thrygve R. Meeker, Owe G. Petersen, Arthur W. Schelling