Patents by Inventor Bernhard Vogeli
Bernhard Vogeli 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: 8357559Abstract: 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: May 20, 2009Date of Patent: January 22, 2013Assignee: 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: 8310015Abstract: 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: January 17, 2006Date of Patent: November 13, 2012Assignee: 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: 8125039Abstract: One-time programmable, non-volatile field effect devices and methods of making same. Under one embodiment, a one-time-programmable, non-volatile field effect device includes a source, drain and gate with a field-modulatable channel between the source and drain. Each of the source, drain, and gate has a corresponding terminal. An electromechanically-deflectable, nanotube switching element is electrically coupled to one of the source, drain and gate and has an electromechanically-deflectable nanotube element that is positioned to be deflectable in response to electrical stimulation to form a non-volatile closed electrical state between the one of the source, drain and gate and its corresponding terminal.Type: GrantFiled: January 9, 2007Date of Patent: February 28, 2012Assignee: Nantero Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash
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Patent number: 7928523Abstract: Under one aspect, a field effect device includes a gate, a source, and a drain, with a conductive channel between the source and the drain; and a nanotube switch having a corresponding control terminal, said nanotube switch being positioned to control electrical conduction through said conductive channel. Under another aspect, a field effect device includes a gate having a corresponding gate terminal; a source having a corresponding source terminal; a drain having a corresponding drain terminal; a control terminal; and a nanotube switching element positioned between one of the gate, source, and drain and its corresponding terminal and switchable, in response to electrical stimuli at the control terminal and at least one of the gate, source, and drain terminals, between a first non-volatile state that enables current flow between the source and the drain and a second non-volatile state that disables current flow between the source and the drain.Type: GrantFiled: July 30, 2009Date of Patent: April 19, 2011Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash
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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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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: 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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Publication number: 20100025659Abstract: Under one aspect, a field effect device includes a gate, a source, and a drain, with a conductive channel between the source and the drain; and a nanotube switch having a corresponding control terminal, said nanotube switch being positioned to control electrical conduction through said conductive channel. Under another aspect, a field effect device includes a gate having a corresponding gate terminal; a source having a corresponding source terminal; a drain having a corresponding drain terminal; a control terminal; and a nanotube switching element positioned between one of the gate, source, and drain and its corresponding terminal and switchable, in response to electrical stimuli at the control terminal and at least one of the gate, source, and drain terminals, between a first non-volatile state that enables current flow between the source and the drain and a second non-volatile state that disables current flow between the source and the drain.Type: ApplicationFiled: July 30, 2009Publication date: February 4, 2010Applicant: Nantero, Inc.Inventors: CLAUDE L. BERTIN, THOMAS RUECKES, BRENT M. SEGAL, BERNHARD VOGELI, DARREN K. BROCK, VENKATACHALAM C. JAIPRAKASH
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Publication number: 20100022045Abstract: 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: ApplicationFiled: May 20, 2009Publication date: January 28, 2010Applicant: 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: 7569880Abstract: Under one aspect, a field effect device includes a gate, a source, and a drain, with a conductive channel between the source and the drain; and a nanotube switch having a corresponding control terminal, said nanotube switch being positioned to control electrical conduction through said conductive channel. Under another aspect, a field effect device includes a gate having a corresponding gate terminal; a source having a corresponding source terminal; a drain having a corresponding drain terminal; a control terminal; and a nanotube switching element positioned between one of the gate, source, and drain and its corresponding terminal and switchable, in response to electrical stimuli at the control terminal and at least one of the gate, source, and drain terminals, between a first non-volatile state that enables current flow between the source and the drain and a second non-volatile state that disables current flow between the source and the drain.Type: GrantFiled: April 2, 2007Date of Patent: August 4, 2009Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash
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Patent number: 7538400Abstract: 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: January 17, 2006Date of Patent: May 26, 2009Assignee: Nantero, Inc.Inventors: Brent M. Segal, Thomas Rueckes, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash, Claude L. Bertin
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Publication number: 20080164541Abstract: 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: ApplicationFiled: July 11, 2007Publication date: July 10, 2008Applicant: Nantero, Inc.Inventors: Brent M. Segal, Thomas Rueckes, Bernhard Vogeli, Darren Brock, Venkatachalam C. Jaiprakash, Claude L. Bertin
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Patent number: 7385266Abstract: 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: May 12, 2004Date of Patent: June 10, 2008Assignee: Nantero, Inc.Inventors: Brent M. Segal, Thomas Rueckes, Bernhard Vogeli, Darren Brock, Venkatachalam C. Jaiprakash, Claude L. Bertin
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Publication number: 20070296019Abstract: Under one aspect, a field effect device includes a gate, a source, and a drain, with a conductive channel between the source and the drain; and a nanotube switch having a corresponding control terminal, said nanotube switch being positioned to control electrical conduction through said conductive channel. Under another aspect, a field effect device includes a gate having a corresponding gate terminal; a source having a corresponding source terminal; a drain having a corresponding drain terminal; a control terminal; and a nanotube switching element positioned between one of the gate, source, and drain and its corresponding terminal and switchable, in response to electrical stimuli at the control terminal and at least one of the gate, source, and drain terminals, between a first non-volatile state that enables current flow between the source and the drain and a second non-volatile state that disables current flow between the source and the drain.Type: ApplicationFiled: April 2, 2007Publication date: December 27, 2007Applicant: Nantero, IncInventors: Claude Bertin, Thomas Rueckes, Brent Segal, Bernhard Vogeli, Darren Brock, Venkatachalam Jaiprakash
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Patent number: 7303860Abstract: A micro-fabricated structure and method of forming a micro-fabricated structure are disclosed. The method includes the steps of forming a first pattern in a first photo-resist, transferring the first pattern in the first photo-resist to a mask layer, forming a second pattern in a second photo-resist, and transferring the second pattern in the second photo-resist to the mask layer. In various embodiments, the method may further include the steps of forming a first pattern in a first photo-resist, forming a second pattern in a second photo-resist, and transferring the first and second patterns to a target layer.Type: GrantFiled: December 6, 2002Date of Patent: December 4, 2007Assignee: Massachusetts Institute of TechnologyInventors: Bernhard Vogeli, Timothy A. Savas, Henry I. Smith, Caroline A. Ross
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Patent number: 7268044Abstract: Under one aspect, a field effect device includes a gate, a source, and a drain, with a conductive channel between the source and the drain; and a nanotube switch having a corresponding control terminal, said nanotube switch being positioned to control electrical conduction through said conductive channel. Under another aspect, a field effect device includes a gate having a corresponding gate terminal; a source having a corresponding source terminal; a drain having a corresponding drain terminal; a control terminal; and a nanotube switching element positioned between one of the gate, source, and drain and its corresponding terminal and switchable, in response to electrical stimuli at the control terminal and at least one of the gate, source, and drain terminals, between a first non-volatile state that enables current flow between the source and the drain and a second non-volatile state that disables current flow between the source and the drain.Type: GrantFiled: October 2, 2006Date of Patent: September 11, 2007Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash
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Publication number: 20070121364Abstract: One-time programmable, non-volatile field effect devices and methods of making same. Under one embodiment, a one-time-programmable, non-volatile field effect device includes a source, drain and gate with a field-modulatable channel between the source and drain. Each of the source, drain, and gate has a corresponding terminal. An electromechanically-deflectable, nanotube switching element is electrically coupled to one of the source, drain and gate and has an electromechanically-deflectable nanotube element that is positioned to be deflectable in response to electrical stimulation to form a non-volatile closed electrical state between the one of the source, drain and gate and its corresponding terminal.Type: ApplicationFiled: January 9, 2007Publication date: May 31, 2007Applicant: Nantero, Inc.Inventors: Claude Bertin, Thomas Rueckes, Brent Segal, Bernhard Vogeli, Darren Brock, Venkatachalam Jaiprakash
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Publication number: 20070108482Abstract: Under one aspect, a field effect device includes a gate, a source, and a drain, with a conductive channel between the source and the drain; and a nanotube switch having a corresponding control terminal, said nanotube switch being positioned to control electrical conduction through said conductive channel. Under another aspect, a field effect device includes a gate having a corresponding gate terminal; a source having a corresponding source terminal; a drain having a corresponding drain terminal; a control terminal; and a nanotube switching element positioned between one of the gate, source, and drain and its corresponding terminal and switchable, in response to electrical stimuli at the control terminal and at least one of the gate, source, and drain terminals, between a first non-volatile state that enables current flow between the source and the drain and a second non-volatile state that disables current flow between the source and the drain.Type: ApplicationFiled: October 2, 2006Publication date: May 17, 2007Applicant: Nantero, Inc.Inventors: Claude Bertin, Thomas Rueckes, Brent Segal, Bernhard Vogeli, Darren Brock, Venkatachalam Jaiprakash
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Patent number: 7161218Abstract: One-time programmable, non-volatile field effect devices and methods of making same. Under one embodiment, a one-time-programmable, non-volatile field effect device includes a source, drain and gate with a field-modulatable channel between the source and drain. Each of the source, drain, and gate has a corresponding terminal. An electromechanically-deflectable, nanotube switching element is electrically coupled to one of the source, drain and gate and has an electromechanically-deflectable nanotube element that is positioned to be deflectable in response to electrical stimulation to form a non-volatile closed electrical state between the one of the source, drain and gate and its corresponding terminal.Type: GrantFiled: June 9, 2004Date of Patent: January 9, 2007Assignee: Nantero, Inc.Inventors: Claude L. Bertin, Thomas Rueckes, Brent M. Segal, Bernhard Vogeli, Darren K. Brock, Venkatachalam C. Jaiprakash
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Publication number: 20060237805Abstract: 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: ApplicationFiled: January 17, 2006Publication date: October 26, 2006Applicant: Nantero, Inc.Inventors: Brent Segal, Thomas Rueckes, Bernhard Vogeli, Darren Brock, Venkatachalam Jaiprakash, Claude Bertin