10 patents
Utility
Solar antenna array fabrication
21 Nov 23
Methods for constructing multi-walled carbon nanotube (MWCNT) antenna arrays, may include: variable doping of the MWCNTs, forming light pipes with layers of variable dielectric glass, forming geometric diodes on full-wave rectified devices that propagate both electrons and holes, using clear conductive ground plans to form windows that can control a building's internal temperature, and generating multiple lithographic patterns with a single mask.
Laurence H. Cooke, Darin S. Olson, Paul Comita, Robert E. Cousins, Albert K. Henning, Andreas Hegedus, David B. Cooke, Yao Te Cheng, John Burke, Richard T. Preston
Filed: 19 May 22
Utility
Solar antenna array fabrication
16 May 23
A method for constructing a solar rectenna array by growing carbon nanotube antennas between lines of metal, and subsequently applying a bias voltage on the carbon nanotube antennas to convert the diodes on the tips of the carbon nanotube antennas from metal oxide carbon diodes to geometric diodes.
Jyotsna Iyer, Laurence H. Cooke
Filed: 15 Jun 21
Utility
Solar Antenna Array Fabrication
1 Sep 22
Methods for constructing multi-walled carbon nanotube (MWCNT) antenna arrays, may include: variable doping of the MWCNTs, forming light pipes with layers of variable dielectric glass, forming geometric diodes on full-wave rectified devices that propagate both electrons and holes, using clear conductive ground plans to form windows that can control a building's internal temperature, and generating multiple lithographic patterns with a single mask.
Laurence H. COOKE, Darin S. OLSON, Paul COMITA, Robert E. COUSINS, Albert K. HENNING, David B. COOKE, Yao-Te CHENG, John BURKE, Richard T. PRESTON
Filed: 19 May 22
Utility
Solar Antenna Array Fabrication
7 Oct 21
A method for constructing a solar rectenna array by growing carbon nanotube antennas between lines of metal, and subsequently applying a bias voltage on the carbon nanotube antennas to convert the diodes on the tips of the carbon nanotube antennas from metal oxide carbon diodes to geometric diodes.
Jyotsna IYER, Laurence H. COOKE
Filed: 15 Jun 21
Utility
Solar antenna array fabrication
7 Sep 21
A method for constructing a solar rectenna array by growing carbon nanotube antennas between lines of metal, and subsequently applying a bias voltage on the carbon nanotube antennas to convert the diodes on the tips of the carbon nanotube antennas from metal oxide carbon diodes to geometric diodes.
Jyotsna Iyer, Laurence H. Cooke
Filed: 22 Aug 17
Utility
Low power semi-reflective display
27 Apr 21
A semi-reflective display and a method for fabricating and assembling a semi-reflective display are presented, where the display may be comprised of visible light rectifying antenna arrays tuned to four different colors, which when forward biased may use electric power to amplify reflected colored light, and when reversed biased may generate electric power by absorbing light.
Laurence H. Cooke
Filed: 20 Aug 19
Utility
Solar antenna array fabrication
13 Apr 20
A solar antenna array may comprise an array of carbon nanotube antennas that may capture and convert sunlight into electrical power.
Jyotsna Iyer, Paul Comita, Robert E. Cousins, Laurence H. Cooke
Filed: 26 Jul 17
Utility
Solar antenna array fabrication
2 Mar 20
A solar antenna array may comprise an array of carbon nanotube antennas that may capture and convert sunlight into electrical power.
Laurence H. Cooke, Andreas Hegedus, Jyotsna Iyer, Paul Comita
Filed: 19 Jan 17
Utility
Low Power Semi-reflective Display
4 Dec 19
A semi-reflective display and a method for fabricating and assembling a semi-reflective display are presented, where the display may be comprised of visible light rectifying antenna arrays tuned to four different colors, which when forward biased may use electric power to amplify reflected colored light, and when reversed biased may generate electric power by absorbing light.
Laurence H. Cooke
Filed: 19 Aug 19
Utility
Low power semi-reflective display
7 Oct 19
A semi-reflective display and a method for fabricating and assembling a semi-reflective display are presented, where the display may be comprised of visible light rectifying antenna arrays tuned to four different colors, which when forward biased may use electric power to amplify reflected colored light, and when reversed biased may generate electric power by absorbing light.
Laurence H. Cooke
Filed: 20 Jun 18
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