Patent application number | Description | Published |
20080218074 | Nanotube array ballistic light emitting devices - A new class of light emitting and laser diodes is disclosed wherein ballistic (without collisions) electron propagation along the nanotubes, grown normally to the substrate plane on the common metal electrode, provides conditions for the light emission from the nanotubes. The electrons, tunneling from the input contact into high energy states in the nanotubes, emit light via electron energy relaxation between the quantum energy levels existing in the nanotubes due to quantum size effect. | 09-11-2008 |
20090189143 | Nanotube array electronic and opto-electronic devices - Carbon nanotube (CNT)-based devices and technology for their fabrication are disclosed. The discussed electronic and photonic devices and circuits rely on the nanotube arrays grown on a variety of substrates, such as glass or Si wafer. The planar, multiple layer deposition technique and simple methods of change of the nanotube conductivity type during the device processing are utilized to provide a simple and cost effective technology for a large scale circuit integration. Such devices as p-n diode, CMOS-like circuit, bipolar transistor, light emitting diode and laser are disclosed, all of them are expected to have superior performance then their semiconductor-based counterparts due to excellent CNT electrical and optical properties. When fabricated on Si-wafers, the CNT-based devices can be combined with the Si circuit elements, thus producing hybrid Si-CNT devices and circuits. | 07-30-2009 |
20110168981 | NANOTUBE ARRAY BIPOLAR TRANSISTORS - Carbon nanotube (CNT)-based devices and technology for their fabrication are disclosed. The planar, multiple layer deposition technique and simple methods of change of the nanotube conductivity type during the device processing are utilized to provide a simple and cost effective technology for large scale circuit integration. Such devices as p-n diode, CMOS-like circuit, bipolar transistor, light emitting diode and laser are disclosed, all of them are expected to have superior performance then their semiconductor-based counterparts due to excellent CNT electrical and optical properties. When fabricated on semiconductor wafers, the CNT-based devices can be combined with the conventional semiconductor circuit elements, thus producing hybrid devices and circuits. | 07-14-2011 |
20110186808 | METHODS OF FORMING CATALYTIC NANOPADS - Carbon nanotube (CNT)-based devices and technology for their fabrication are disclosed. The planar, multiple layer deposition technique and simple methods of change of the nanotube conductivity type during the device processing are utilized to provide a simple and cost effective technology for large scale circuit integration. Such devices as p-n diode, CMOS-like circuit, bipolar transistor, light emitting diode and laser are disclosed, all of them are expected to have superior performance then their semiconductor-based counterparts due to excellent CNT electrical and optical properties. When fabricated on semiconductor wafers, the CNT-based devices can be combined with the conventional semiconductor circuit elements, thus producing hybrid devices and circuits. | 08-04-2011 |
20110186809 | NANOTUBE ARRAY LIGHT EMITTING DIODES AND LASERS - Carbon nanotube (CNT)-based devices and technology for their fabrication are disclosed. The planar, multiple layer deposition technique and simple methods of change of the nanotube conductivity type during the device processing are utilized to provide a simple and cost effective technology for large scale circuit integration. Such devices as p-n diode, CMOS-like circuit, bipolar transistor, light emitting diode and laser are disclosed, all of them are expected to have superior performance then their semiconductor-based counterparts due to excellent CNT electrical and optical properties. When fabricated on semiconductor wafers, the CNT-based devices can be combined with the conventional semiconductor circuit elements, thus producing hybrid devices and circuits. | 08-04-2011 |
20110188527 | NANOTUBE ARRAY INJECTION LASERS - Carbon nanotube (CNT)-based devices and technology for their fabrication are disclosed. The planar, multiple layer deposition technique and simple methods of change of the nanotube conductivity type during the device processing are utilized to provide a simple and cost effective technology for large scale circuit integration. Such devices as p-n diode, CMOS-like circuit, bipolar transistor, light emitting diode and laser are disclosed, all of them are expected to have superior performance then their semiconductor-based counterparts due to excellent CNT electrical and optical properties. When fabricated on semiconductor wafers, the CNT-based devices can be combined with the conventional semiconductor circuit elements, thus producing hybrid devices and circuits. | 08-04-2011 |
20140103299 | NANOTUBE ARRAY ELECTRONIC AND OPTO-ELECTRONIC DEVICES - Carbon nanotube (CNT)-based devices and technology for their fabrication are disclosed. The planar, multiple layer deposition technique and simple methods of change of the nanotube conductivity type during the device processing are utilized to provide a simple and cost effective technology for large scale circuit integration. Such devices as p-n diode, CMOS-like circuit, bipolar transistor, light emitting diode and laser are disclosed, all of them are expected to have superior performance then their semiconductor-based counterparts due to excellent CNT electrical and optical properties. When fabricated on semiconductor wafers, the CNT-based devices can be combined with the conventional semiconductor circuit elements, thus producing hybrid devices and circuits. | 04-17-2014 |
Patent application number | Description | Published |
20130146836 | CNT-BASED ELECTRONIC AND PHOTONIC DEVICES - The carbon nanotube-based electronic and photonic devices are disclosed. The devices are united by the same technology as well as similar elements for their fabrication. The devices consist of the vertically grown semiconductor nanotube having two Schottky barriers at the nanotube ends and one Schottky barrier at the middle of the nanotube. Depending on the Schottky barrier heights and bias arrangements, the disclosed devices can operate either as transistors, CNT MESFET and CNT Hot Electron Transistor, or as a CNT Photon Emitter. | 06-13-2013 |
20130217565 | Method of forming nano-pads of catalytic metal for growth of single walled carbon nanotubes - Two methods of producing nano-pads of catalytic metal for growth of single walled carbon nanotubes (SWCNT) are disclosed. Both methods utilize a shadow mask technique, wherein the nano-pads are deposited from the catalytic metal source positioned under the angle toward the vertical walls of the opening, so that these walls serve as a shadow mask. | 08-22-2013 |
20140154847 | SPATIAL ORIENTATION OF THE CARBON NANOTUBES IN ELECTROPHORETIC DEPOSITION PROCESS - A new method of electrophoretic nanotube deposition is proposed wherein individual nanotubes are placed on metal electrodes which have their length significantly exceeding their width, while the nanotube length is chosen to be close to that of the metal electrode. | 06-05-2014 |
20140155253 | METHOD OF FORMING NANO-PADS OF CATALYTIC METAL FOR GROWTH OF SINGLE WALLED CARBON NANOTUBES - Two methods of producing nano-pads of catalytic metal for growth of single walled carbon nanotubes (SWCNT) are disclosed. Both methods utilize a shadow mask technique, wherein the nano-pads are deposited from the catalytic metal source positioned under the angle toward the vertical walls of the opening, so that these walls serve as a shadow mask. | 06-05-2014 |
20140284553 | CNT-BASED ELECTRONIC AND PHOTONIC DEVICES - The carbon nanotube-based electronic and photonic devices are disclosed. The devices are united by the same technology as well as similar elements for their fabrication. The devices consist of the vertically grown semiconductor nanotube having two Schottky barriers at the nanotube ends and one Schottky barrier at the middle of the nanotube. Depending on the Schottky barrier heights and bias arrangements, the disclosed devices can operate either as transistors, CNT MESFET and CNT Hot Electron Transistor, or as a CNT Photon Emitter. | 09-25-2014 |
20140287575 | SPATIAL ORIENTATION OF THE CARBON NANOTUBES IN ELECTROPHORETIC DEPOSITION PROCESS - A new method of electrophoretic nanotube deposition is proposed wherein individual nanotubes are placed on metal electrodes which have their length significantly exceeding their width, while the nanotube length is chosen to be close to that of the metal electrode. Due to electrostatic attraction of individual nanotube to the elongated electrode, every nanotube approaching the electrode is deposited along the electrode, since such an orientation is energetically favorable. This method offers opportunity to produce oriented arrays of individual nanotubes, which opens up a new technique for fabrication and mass production of nanotube-based devices and circuits. Several such devices are considered. These are MESFET- and MOSFET-like transistors and CMOS-like voltage inverter. | 09-25-2014 |
20140287909 | METHOD OF FORMING NANO-PADS OF CATALYTIC METAL FOR GROWTH OF SINGLE-WALLED CARBON NANOTUBES - Two methods of producing nano-pads of catalytic metal for growth of single walled carbon nanotubes (SWCNT) are disclosed. Both methods utilize a shadow mask technique, wherein the nano-pads are deposited from the catalytic metal source positioned under the angle toward the vertical walls of the opening, so that these walls serve as a shadow mask. In the first case, the vertical walls of the photo-resist around the opening are used as a shadow mask, while in the second case the opening is made in a thin layer of the dielectric layer serving as a shadow mask. Both methods produce the nano-pad areas sufficiently small for the growth of the SWCNT from the catalytic metal balls created after high temperature melting of the nano-pads. | 09-25-2014 |