Patents by Inventor Murat Okandan
Murat Okandan 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: 7826065Abstract: An atomic magnetometer is disclosed which utilizes an optical cavity formed from a grating and a mirror, with a vapor cell containing an alkali metal vapor located inside the optical cavity. Lasers are used to magnetically polarize the alkali metal vapor and to probe the vapor and generate a diffracted laser beam which can be used to sense a magnetic field. Electrostatic actuators can be used in the magnetometer for positioning of the mirror, or for modulation thereof. Another optical cavity can also be formed from the mirror and a second grating for sensing, adjusting, or stabilizing the position of the mirror.Type: GrantFiled: July 15, 2008Date of Patent: November 2, 2010Assignee: Sandia CorporationInventors: Murat Okandan, Peter Schwindt
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Patent number: 7727314Abstract: The present invention relates generally to chemical analysis (e.g. by gas chromatography), and in particular to a compact chemical preconcentrator formed on a substrate with a heatable sorptive membrane that can be used to accumulate and concentrate one or more chemical species of interest over time and then rapidly release the concentrated chemical species upon demand for chemical analysis.Type: GrantFiled: January 30, 2007Date of Patent: June 1, 2010Assignee: Sandia CorporationInventors: Ronald P. Manginell, Patrick R. Lewis, Murat Okandan
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Patent number: 7540469Abstract: A microelectromechanical (MEM) flow control apparatus is disclosed which includes a fluid channel formed on a substrate from a first layer of a nonconducting material (e.g. silicon nitride). A first electrode is provided on the first layer of the nonconducting material outside the flow channel; and a second electrode is located on a second layer of the nonconducting material above the first layer. A voltage applied between the first and second electrodes deforms the fluid channel to increase its cross-sectional size and thereby increase a flow of a fluid through the channel. In certain embodiments of the present invention, the fluid flow can be decreased or stopped by applying a voltage between the first electrode and the substrate. A peristaltic pumping of the fluid through the channel is also possible when the voltage is applied in turn between a plurality of first electrodes and the substrate.Type: GrantFiled: January 25, 2005Date of Patent: June 2, 2009Assignee: Sandia CorporationInventor: Murat Okandan
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Patent number: 7341222Abstract: A MEMS-based micro-unmanned vehicle includes at least a pair of wings having leading wing beams and trailing wing beams, at least two actuators, a leading actuator beam coupled to the leading wing beams, a trailing actuator beam coupled to the trailing wing beams, a vehicle body having a plurality of fulcrums pivotally securing the leading wing beams, the trailing wing beams, the leading actuator beam and the trailing actuator beam and having at least one anisotropically etched recess to accommodate a lever-fulcrum motion of the coupled beams, and a power source.Type: GrantFiled: April 7, 2005Date of Patent: March 11, 2008Assignee: The United States of America as represented by the United States Department of EnergyInventors: Nigel Reuel, Troy A. Lionberger, Paul C. Galambos, Murat Okandan, Michael S. Baker
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Patent number: 7308317Abstract: An electrode array is disclosed which has applications for neural stimulation and sensing. The electrode array, in certain embodiments, can include a plurality of electrodes each of which is flexibly attached to a common substrate using a plurality of springs to allow the electrodes to move independently. In other embodiments of the electrode array, the electrodes can be fixed to the substrate. The electrode array can be formed from a combination of bulk and surface micromachining, and can include electrode tips having an electroplated metal (e.g. platinum, iridium, gold or titanium) or a metal oxide (e.g. iridium oxide) for biocompatibility. The electrode array can be used to form a part of a neural prosthesis, and is particularly well adapted for use in an implantable retinal prosthesis.Type: GrantFiled: February 17, 2005Date of Patent: December 11, 2007Assignee: Sandia CorporationInventors: Murat Okandan, Kurt O. Wessendorf
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Patent number: 7291003Abstract: A micromachined spinneret is disclosed which has one or more orifices through which a fiber-forming material can be extruded to form a fiber. Each orifice is surrounded by a concentric annular orifice which allows the fiber to be temporarily or permanently coated with a co-extrudable material. The micromachined spinneret can be formed by a combination of surface and bulk micromachining.Type: GrantFiled: September 23, 2004Date of Patent: November 6, 2007Assignee: Sandia CorporationInventors: Murat Okandan, Paul Galambos
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Patent number: 7246524Abstract: The present invention comprises a novel, lightweight, massively parallel device comprising microelectromechanical (MEMS) fluidic actuators, to reconfigure the profile, of a surface. Each microfluidic actuator comprises an independent bladder that can act as both a sensor and an actuator. A MEMS sensor, and a MEMS valve within each microfluidic actuator, operate cooperatively to monitor the fluid within each bladder, and regulate the flow of the fluid entering and exiting each bladder. When adjacently spaced in a array, microfluidic actuators can create arbitrary surface profiles in response to a change in the operating environment of the surface. In an embodiment of the invention, the profile of an airfoil is controlled by independent extension and contraction of a plurality of actuators, that operate to displace a compliant cover.Type: GrantFiled: May 2, 2005Date of Patent: July 24, 2007Assignee: Sandia CorporationInventors: Deepesh K. Kholwadwala, Gabriel A. Johnston, Brandon R. Rohrer, Paul C. Galambos, Murat Okandan
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Patent number: 7127301Abstract: An electrode array which has applications for neural stimulation and sensing. The electrode array can include a large number of electrodes each of which is flexibly attached to a common substrate using a plurality of springs to allow the electrodes to move independently. The electrode array can be formed from a combination of bulk and surface micromachining, with electrode tips that can include an electroplated metal (e.g. platinum, iridium, gold or titanium) or a metal oxide (e.g. iridium oxide) for biocompatibility. The electrode array can be used to form a part of a neural prosthesis, and is particularly well adapted for use in an implantable retinal prosthesis where the electrodes can be tailored to provide a uniform gentle contact pressure with optional sensing of this contact pressure at one or more of the electrodes.Type: GrantFiled: April 28, 2003Date of Patent: October 24, 2006Assignee: Sandia CorporationInventors: Murat Okandan, Kurt O. Wessendorf, Todd R. Christenson
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Patent number: 7004198Abstract: An apparatus for simultaneously aligning and interconnecting microfluidic ports is presented. Such interconnections are required to utilize microfluidic devices fabricated in Micro-Electromechanical-Systems (MEMS) technologies, that have multiple fluidic access ports (e.g. 100 micron diameter) within a small footprint, (e.g. 3 mm×6 mm). Fanout of the small ports of a microfluidic device to a larger diameter (e.g. 500 microns) facilitates packaging and interconnection of the microfluidic device to printed wiring boards, electronics packages, fluidic manifolds etc.Type: GrantFiled: July 20, 2004Date of Patent: February 28, 2006Assignee: Sandia CorporationInventors: Murat Okandan, Paul C. Galambos, Gilbert L. Benavides, Dale L. Hetherington
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Patent number: 6797187Abstract: Microfluidic devices are disclosed which can be manufactured using surface-micromachining. These devices utilize an electroosmotic force or an electromagnetic field to generate a flow of a fluid in a microchannel that is lined, at least in part, with silicon nitride. Additional electrodes can be provided within or about the microchannel for separating particular constituents in the fluid during the flow based on charge state or magnetic moment. The fluid can also be pressurized in the channel. The present invention has many different applications including electrokinetic pumping, chemical and biochemical analysis (e.g. based on electrophoresis or chromatography), conducting chemical reactions on a microscopic scale, and forming hydraulic actuators.Type: GrantFiled: January 24, 2003Date of Patent: September 28, 2004Assignee: Sandia CorporationInventors: Paul C. Galambos, Murat Okandan, Stephen Montague, James H. Smith, Phillip H. Paul, Thomas W. Krygowski, James J. Allen, Christopher A. Nichols, Jerome F. Jakubczak, II
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Patent number: 6645757Abstract: An apparatus and method are disclosed for in vitro transformation of living cells. The apparatus, which is formed as a microelectromechanical device by surface micromachining, can be used to temporarily disrupt the cell walls or membrane of host cells one at a time so that a particular substance (e.g. a molecular tag, nucleic acid, bacteria, virus etc.) can be introduced into the cell. Disruption of the integrity of the host cells (i.e. poration) can be performed mechanically or electrically, or by both while the host cells are contained within a flow channel. Mechanical poration is possible using a moveable member which has a pointed or serrated edge and which is driven by an electrostatic actuator to abrade, impact or penetrate the host cell. Electroporation is produced by generating a relatively high electric field across the host cell when the host cell is located in the flow channel between a pair of electrodes having a voltage applied therebetween.Type: GrantFiled: February 8, 2001Date of Patent: November 11, 2003Assignee: Sandia CorporationInventors: Murat Okandan, Paul C. Galambos
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Patent number: 6537437Abstract: Microfluidic devices are disclosed which can be manufactured using surface-micromachining. These devices utilize an electroosmotic force or an electromagnetic field to generate a flow of a fluid in a microchannel that is lined, at least in part, with silicon nitride. Additional electrodes can be provided within or about the microchannel for separating particular constituents in the fluid during the flow based on charge state or magnetic moment. The fluid can also be pressurized in the channel. The present invention has many different applications including electrokinetic pumping, chemical and biochemical analysis (e.g. based on electrophoresis or chromatography), conducting chemical reactions on a microscopic scale, and forming hydraulic actuators.Type: GrantFiled: November 13, 2000Date of Patent: March 25, 2003Assignee: Sandia CorporationInventors: Paul C. Galambos, Murat Okandan, Stephen Montague, James H. Smith, Phillip H. Paul, Thomas W. Krygowski, James J. Allen, Christopher A. Nichols, Jerome F. Jakubczak, II
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Patent number: 6348806Abstract: An integrated circuit (10) includes a measurement circuit (20) for determining if a transistor (26) has normal gate leakage current or has a gate leakage current which is greater than normal. A transistor such as transistor (26) may be in a condition known as quasi-breakdown which typically occurs in response to some electrical stress. The characteristic of quasi-breakdown is that there is a very significant increase in gate leakage current, the transistor continues to function as a transistor but perhaps with degraded performance, and the transistor will fail if it continues to receive the stresses that caused it to go into quasi-breakdown. Thus, the measurement circuit (20), which is included on the integrated circuit (10), provides an early warning that a transistor, a device under test (26), is going to fail if the operating conditions remain the same.Type: GrantFiled: March 18, 1999Date of Patent: February 19, 2002Assignee: Motorola, Inc.Inventors: Murat Okandan, Jules D. Campbell, Jr.
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Patent number: 5994911Abstract: An approach using two terminal current measurements, preferably in a cyclic current-voltage sweeping procedure, and specialized test structure, is shown to be very useful in detecting processing induced changes in poly-Si/ultra-thin SiO.sub.2 /substrate Si structures. The charging current structure discernible in this approach is seen to have different features depending on processing history of the device. This is shown for the specific case of plasma gate definition etching with or without annealing.Type: GrantFiled: April 24, 1997Date of Patent: November 30, 1999Assignee: The Penn State Research FoundationInventors: Stephen J. Fonash, Osama O. Awadelkarim, Murat Okandan, Maria M. Ozaita-Mintegui