Patents by Inventor Brent M. Segal
Brent M. Segal 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: 7915066Abstract: Methods of producing an electromechanical circuit element are described. A lower structure having lower support structures and a lower electrically conductive element is provided. A nanotube ribbon (or other electromechanically responsive element) is formed on an upper surface of the lower structure so as to contact the lower support structures. An upper structure is provided over the nanotube ribbon. The upper structure includes upper support structures and an upper electrically conductive element. In some arrangements, the upper and lower electrically conductive elements are in vertical alignment, but in some arrangements they are not.Type: GrantFiled: September 2, 2008Date of Patent: March 29, 2011Assignee: Nantero, Inc.Inventors: Thomas Rueckes, Brent M. Segal, Darren K. Brock
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Patent number: 7911831Abstract: Under one aspect, non-volatile transistor device includes a source and drain with a channel in between; a gate structure made of a semiconductive or conductive material disposed over an insulator over the channel; a control gate made of a semiconductive or conductive material; and an electromechanically-deflectable nanotube switching element in fixed contact with one of the gate structure and the control gate structure and is not in fixed contact with the other of the gate structure and the control gate structure. The device has a network of inherent capacitances, including an inherent capacitance of an undeflected nanotube switching element in relation to the gate structure. The network is such that the nanotube switching element is deflectable into contact with the other of the gate structure and the control gate structure in response to signals being applied to the control gate and one of the source region and drain region.Type: GrantFiled: November 13, 2007Date of Patent: March 22, 2011Assignee: Nantero, Inc.Inventors: Thomas Rueckes, Brent M. Segal, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash, Claude L. Bertin
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Publication number: 20110062993Abstract: Nanotube-based switching elements and logic circuits are disclosed. Under one embodiment of the invention, a Boolean logic circuit includes at least one input terminal and an output terminal, and a network of nanotube switching elements electrically disposed between said at least one input terminal and said output terminal. The network of nanotube switching elements effectuates a Boolean function transformation of Boolean signals on said at least one input terminal. The Boolean function transformation includes a Boolean inversion within the function, such as a NOT or NOR function.Type: ApplicationFiled: November 22, 2010Publication date: March 17, 2011Applicant: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal
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Publication number: 20110057717Abstract: Nanotube switching devices having nanotube bridges are disclosed. Two-terminal nanotube switches include conductive terminals extending up from a substrate and defining a void in the substrate. Nantoube articles are suspended over the void or form a bottom surface of a void. The nanotube articles are arranged to permanently contact at least a portion of the conductive terminals. An electrical stimulus circuit in communication with the conductive terminals is used to generate and apply selected waveforms to induce a change in resistance of the device between relatively high and low resistance values. Relatively high and relatively low resistance values correspond to states of the device. A single conductive terminal and a interconnect line may be used. The nanotube article may comprise a patterned region of nanotube fabric, having an active region with a relatively high or relatively low resistance value. Methods of making each device are disclosed.Type: ApplicationFiled: June 16, 2008Publication date: March 10, 2011Applicant: NANTERO, INC.Inventors: H. M. MANNING, Thomas RUECKES, Jonathan W. WARD, Brent M. SEGAL
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Publication number: 20110025577Abstract: A nanotube based microstrip antenna element is provided along with arrays of same. The nanotube based microstrip antenna element comprises a dielectric substrate layer sandwiched between a ground plane layer and a conductive nanotube layer, the conductive nanotube layer shaped to form a radiating structure. In more advanced embodiments, the nanotube based microstrip antenna element further includes an integrated two terminal nanotube switch device such as to provide a selectability function to such microstrip antenna elements and reconfigurable arrays of same. Anisotropic nanotube fabric layers are also used to provide substantially transparent microstrip antenna structures which can be deposited over display screens and the like.Type: ApplicationFiled: July 31, 2009Publication date: February 3, 2011Applicant: NANTERO, INC.Inventors: Jonathan W. WARD, Robert F. Smith, Brent M. SEGAL
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Publication number: 20100327247Abstract: Methods and systems of using nanotube elements as joule heating elements for memories and other applications. Under one aspect, a method includes providing an electrical stimulus, regulated by a drive circuit, through a nanotube element in order to heat an adjacent article. Further, a detection circuit electrically gauges the state of the article. The article heated by the nanotube element is, in preferred embodiments, a phase changing material, hi memory applications, the invention may be used as a small-scale CRAM capable of employing small amounts of current to induce rapid, large temperature changes in a chalcogenide material. Under various embodiments of the disclosed invention, the nanotube element is composed of a non-woven nanotube fabric which is either suspended from supports and positioned adjacent to the phase change material or is disposed on a substrate and in direct contact with the phase change material.Type: ApplicationFiled: September 6, 2006Publication date: December 30, 2010Applicant: NANTERO, INC.Inventors: Jonathan W. Ward, Thomas Rueckes, Mitchell Meinhold, Brent M. Segal
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Patent number: 7859385Abstract: Resistive elements include a patterned region of nanofabric having a predetermined area, where the nanofabric has a selected sheet resistance; and first and second electrical contacts contacting the patterned region of nanofabric and in spaced relation to each other. The resistance of the element between the first and second electrical contacts is determined by the selected sheet resistance of the nanofabric, the area of nanofabric, and the spaced relation of the first and second electrical contacts. The bulk resistance is tunable.Type: GrantFiled: April 29, 2008Date of Patent: December 28, 2010Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal, Jonathan W. Ward
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Patent number: 7858185Abstract: Certain spin-coatable liquids and application techniques are described, which can be used to form nanotube films or fabrics of controlled properties. A spin-coatable liquid for formation of a nanotube film includes a liquid medium containing a controlled concentration of purified nanotubes, wherein the controlled concentration is sufficient to form a nanotube fabric or film of preselected density and uniformity, and wherein the spin-coatable liquid comprises less than 1×1018 atoms/cm3 of metal impurities. The spin-coatable liquid is substantially free of particle impurities having a diameter of greater than about 500 nm.Type: GrantFiled: June 3, 2004Date of Patent: December 28, 2010Assignee: Nantero, Inc.Inventors: Rahul Sen, Ramesh Sivarajan, Thomas Rueckes, Brent M. Segal
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Patent number: 7852114Abstract: Field programmable device (FPD) chips with large logic capacity and field programmability that are in-circuit programmable are described. FPDs use small versatile nonvolatile nanotube switches that enable efficient architectures for dense low power and high performance chip implementations and are compatible with low cost CMOS technologies and simple to integrate.Type: GrantFiled: August 6, 2009Date of Patent: December 14, 2010Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Brent M. Segal
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Patent number: 7839176Abstract: Nanotube-based switching elements and logic circuits. Under one embodiment of the invention, a switching element includes an input node, an output node, a nanotube channel element having at least one electrically conductive nanotube, and a control electrode. The control electrode is disposed in relation to the nanotube channel element to controllably form an electrically conductive channel between the input node and the output node. The channel at least includes said nanotube channel element. The output node is constructed and arranged so that channel formation is substantially unaffected by the electrical state of the output node. Under another embodiment of the invention, the control electrode is arranged in relation to the nanotube channel element to form said conductive channel by causing electromechanical deflection of said nanotube channel element.Type: GrantFiled: June 2, 2009Date of Patent: November 23, 2010Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal
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Patent number: 7839615Abstract: Nanotube ESD protective devices and corresponding nonvolatile and volatile nanotube switches. An electrostatic discharge (ESD) protection circuit for protecting a protected circuit is coupled to an input pad. The ESD circuit includes a nanotube switch electrically having a control. The switch is coupled to the protected circuit and to a discharge path. The nanotube switch is controllable, in response to electrical stimulation of the control, between a de-activated state and an activated state. The activated state creates a current path so that a signal on the input pad flows to the discharge path to cause the signal at the input pad to remain within a predefined operable range for the protected circuit. The nanotube switch, the input pad, and the protected circuit may be on a semiconductor chip. The nanotube switch may be on a chip carrier. The deactivated and activated states may be volatile or non-volatile depending on the embodiment.Type: GrantFiled: July 27, 2009Date of Patent: November 23, 2010Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Brent M. Segal, Thomas Rueckes, Jonathan W. Ward
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Publication number: 20100283528Abstract: Under one aspect, non-volatile transistor device includes a source and drain with a channel in between; a gate structure made of a semiconductive or conductive material disposed over an insulator over the channel; a control gate made of a semiconductive or conductive material; and an electromechanically-deflectable nanotube switching element in fixed contact with one of the gate structure and the control gate structure and is not in fixed contact with the other of the gate structure and the control gate structure. The device has a network of inherent capacitances, including an inherent capacitance of an undeflected nanotube switching element in relation to the gate structure. The network is such that the nanotube switching element is deflectable into contact with the other of the gate structure and the control gate structure in response to signals being applied to the control gate and one of the source region and drain region.Type: ApplicationFiled: November 13, 2007Publication date: November 11, 2010Applicant: NANTERO, INC.Inventors: Thomas RUECKES, Brent M. SEGAL, Bernard VOGELI, Darren K. BROCK, Venkatachalam C. JAIPRAKASH, Claude L. BERTIN
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Publication number: 20100267205Abstract: Under one aspect, a method of cooling a circuit element includes providing a thermal reservoir having a temperature lower than an operating temperature of the circuit element; and providing a nanotube article in thermal contact with the circuit element and with the reservoir, the nanotube article including a non-woven fabric of nanotubes in contact with other nanotubes to define a plurality of thermal pathways along the article, the nanotube article having a nanotube density and a shape selected such that the nanotube article is capable of transferring heat from the circuit element to the thermal reservoir.Type: ApplicationFiled: September 5, 2006Publication date: October 21, 2010Applicant: LOCKHEED MARTIN CORPORATIONInventors: Jonathan W. Ward, Claude L. Bertin, Brent M. Segal
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Patent number: 7817458Abstract: A hybrid memory system having electromechanical memory cells is discussed. A memory cell core circuit has an array of electromechanical memory cells, in which each cell is a crossbar junction at least one element of which is a nanotube or a nanotube ribbon. An access circuit provides array addresses to the memory cell core circuit to select at least one corresponding cell. The access circuit is constructed of semiconductor circuit elements.Type: GrantFiled: February 13, 2008Date of Patent: October 19, 2010Assignee: Nantero, Inc.Inventors: Brent M. Segal, Darren K. Brock, Thomas Rueckes
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Patent number: 7786540Abstract: Sensor platforms and methods of making them are described. A platform having a non-horizontally oriented sensor element comprising one or more nanostructures such as nanotubes is described. Under certain embodiments, a sensor element has or is made to have an affinity for an analyte. Under certain embodiments, such a sensor element comprises one or more pristine nanotubes. Under certain embodiments, the sensor element comprises derivatized or functionalized nanotubes. Under certain embodiments, a sensor is made by providing a support structure; providing one or more nanotubes on the structure to provide material for a sensor element; and providing circuitry to electrically sense the sensor element's electrical characterization. Under certain embodiments, the sensor element comprises pre-derivatized or pre-functionalized nanotubes. Under other embodiments, sensor material is derivatized or functionalized after provision on the structure or after patterning.Type: GrantFiled: July 11, 2007Date of Patent: August 31, 2010Assignee: Nantero, Inc.Inventors: Brent M. Segal, Thomas Rueckes, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash, Claude L. Bertin
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Patent number: 7782652Abstract: Nanotube-based switching elements with multiple controls and circuits made from such. A switching element includes an input node, an output node, and a nanotube channel element having at least one electrically conductive nanotube. A control structure is disposed in relation to the nanotube channel element to controllably form and unform an electrically conductive channel between said input node and said output node. The output node is constructed and arranged so that channel formation is substantially unaffected by the electrical state of the output node. The control structure includes a control electrode and a release electrode, disposed on opposite sides of the nanotube channel element. The control and release may be used to form a differential input, or if the device is constructed appropriately to operate the circuit in a non-volatile manner. The switching elements may be arranged into logic circuits and latches having differential inputs and/or non-volatile behavior.Type: GrantFiled: October 6, 2008Date of Patent: August 24, 2010Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal
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Patent number: 7780918Abstract: Sensor platforms and methods of making them are described, and include platforms having horizontally oriented sensor elements comprising nanotubes or other nanostructures, such as nanowires. Under certain embodiments, a sensor element has an affinity for an analyte. Under certain embodiments, such a sensor element comprises one or more pristine nanotubes, and, under certain embodiments, it comprises derivatized or functionalized nanotubes. Under certain embodiments, a sensor is made by providing a support structure; providing a collection of nanotubes on the structure; defining a pattern within the nanotube collection; removing part of the collection so that a patterned collection remains to form a sensor element; and providing circuitry to electrically sense the sensor's electrical characterization. Under certain embodiments, the sensor element comprises pre-derivatized or pre-functionalized nanotubes.Type: GrantFiled: May 12, 2004Date of Patent: August 24, 2010Assignee: Nantero, Inc.Inventors: Brent M. Segal, Thomas Rueckes, Bernhard Vogeli, Darren Brock, Venkatachalam C. Jaiprakash, Claude L. Bertin
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Patent number: 7777222Abstract: Nanotube device structures and methods of fabrication. A method of making a nanotube switching element includes forming a first structure having at a first output electrode; forming second structure having a second output electrode; forming a conductive article having at least one nanotube, the article having first and second ends; positioning the conductive article between said first and second structures such that the first structure clamps the first and second ends of the article to the second structure, and such that the first and second output electrodes are opposite each other with the article positioned therebetween; providing at least one signal electrode in electrical communication with the conductive article; and providing at least one control electrode in spaced relation to the conductive article such that the control electrode may control the conductive article to form a conductive pathway between the signal electrode and the first output electrode.Type: GrantFiled: August 26, 2009Date of Patent: August 17, 2010Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal
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Patent number: 7745810Abstract: Nanotube films and articles and methods of making the same are disclosed. A conductive article includes an aggregate of nanotube segments in which the nanotube segments contact other nanotube segments to define a plurality of conductive pathways along the article. The nanotube segments may be single walled carbon nanotubes, or multi-walled carbon nanotubes. The various segments may have different lengths and may include segments having a length shorter than the length of the article. The articles so formed may be disposed on substrates, and may form an electrical network of nanotubes within the article itself. Conductive articles may be made on a substrate by forming a nanotube fabric on the substrate, and defining a pattern within the fabric in which the pattern corresponds to the conductive article.Type: GrantFiled: February 9, 2004Date of Patent: June 29, 2010Assignee: Nantero, Inc.Inventors: Thomas Rueckes, Brent M. Segal
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Publication number: 20100148183Abstract: Manufacturers encounter limitations in forming low resistance ohmic electrical contact to semiconductor material P-type Gallium Nitride (p-GaN), commonly used in photonic applications, such that the contact is highly transparent to the light emission of the device. Carbon nanotubes (CNTs) can address this problem due to their combined metallic and semiconducting characteristics in conjunction with the fact that a fabric of CNTs has high optical transparency. The physical structure of the contact scheme is broken down into three components, a) the GaN, b) an interface material and c) the metallic conductor. The role of the interface material is to make suitable contact to both the GaN and the metal so that the GaN, in turn, will make good electrical contact to the metallic conductor that interfaces the device to external circuitry. A method of fabricating contact to GaN using CNTs and metal while maintaining protection of the GaN surface is provided.Type: ApplicationFiled: July 21, 2009Publication date: June 17, 2010Inventors: Jonathan W. Ward, Benjamin Schlatka, Michell Meinhold, Robert F. Smith, Brent M. Segal