Patent application number | Description | Published |
20090194313 | Coaxial cable - A coaxial cable includes a core, an insulating layer, a shielding layer, a sheathing layer. The core includes an amount of carbon nanotubes having at least one conductive coating disposed about the carbon nanotubes. The carbon nanotubes are orderly arranged. The insulating layer is about the core. The shielding layer is about the insulating layer. The sheathing layer is about the shielding layer. | 08-06-2009 |
20090196981 | Method for making carbon nanotube composite structure - A method for making a carbon nanotube composite structure, the method comprising the steps of: providing a carbon nanotube structure having a plurality of carbon nanotubes; and forming at least one conductive coating on a plurality of the carbon nanotubes in the carbon nanotube structure to achieve a carbon nanotube composite structure, wherein the conductive coating comprises of a conductive layer. | 08-06-2009 |
20090196982 | Method for making coaxial cable - A method for making a coaxial cable, the method comprises the steps of: providing a carbon nanotube structure; and forming at least one conductive coating on a plurality of carbon nanotubes of the carbon nanotube structure; a carbon nanotube wire-like structure from the carbon nanotubes with at least one conductive coating; at least one layer of insulating material on the carbon nanotube wire-like structure; at least one layer of shielding material on the at least one layer of insulating material; and one layer of sheathing material on the at least one layer of shielding material. | 08-06-2009 |
20090196985 | Method for making individually coated and twisted carbon nanotube wire-like structure - A method for making an individually coated and twisted carbon nanotube wire-like structure, the method comprising the steps of: providing a carbon nanotube structure having a plurality of carbon nanotubes; forming at least one conductive coating on the plurality of carbon nanotubes in the carbon nanotube structure; and twisting the carbon nanotube structure. | 08-06-2009 |
20090197082 | Individually coated carbon nanotube wire-like structure related applications - A individually coated carbon nanotube wire-like structure includes an amount of carbon nanotubes and a conductive coating on an outside surface of the carbon nanotubes. The carbon nanotubes are joined end-to-end by van der Waals attractive force therebetween. | 08-06-2009 |
20090215651 | Carbon nanotube arrays - A carbon nanotube array includes a plurality of carbon nanotubes aligned in a uniform direction. Each carbon nanotube has at least one line mark formed thereon. | 08-27-2009 |
20090272490 | METHOD FOR MANUFACTURING CARBON NANOTUBES - A method for manufacturing open-ended carbon nanotubes is described. The method includes steps of: providing a substrate having a catalyst layer formed thereon; placing the substrate in a reaction chamber; introducing a carbon source gas containing carbon element into the reaction chamber for growing carbon nanotubes form the catalyst layer; promptly reducing a concentration of the carbon source gas when the growth of carbon nanotubes in process, thereby ceasing the growth of the carbon nanotubes instantly; and separating the carbon nanotubes from the catalyst layer. | 11-05-2009 |
20090301993 | Method for fabricating carbon nanotube film - A method for making a carbon nanotube film includes the steps of providing an array of carbon nanotubes, treating the array of carbon nanotubes by plasma, and pulling out a carbon nanotube film from the array of carbon nanotubes treated by the plasma. | 12-10-2009 |
20090314765 | Carbon nanotube heater - An apparatus includes a hollow heater. The hollow heater includes a hollow supporter, a heating element and at least two electrodes. The least two electrodes electrically connected to the heating element. The hollow supporter defines a hollow space, and the hollow supporter has an inner surface and an outer surface. The heating element is located on the inner surface or the outer surface of the hollow supporter. The heating element comprises at least one carbon nanotube film comprising a plurality of carbon nanotubes, and an angle between a primary alignment direction of the carbon nanotubes and a surface of the carbon nanotube film is 0 degrees to 15 degrees. | 12-24-2009 |
20090321418 | Carbon nanotube heater - An apparatus includes a hollow heater. The hollow heater includes a hollow supporter, a heating element and at least two electrodes. The hollow supporter defines a hollow space, the hollow supporter has an inner surface and an outer surface. The heating element is located on the inner surface or the outer surface of the hollow supporter. The at least two electrodes are electrically connected to the heating element. At least one of the at least two electrodes includes at least a carbon nanotube structure. | 12-31-2009 |
20090321419 | Carbon nanotube heater - An apparatus includes a linear heater. The linear heater includes a linear supporter; a heating element and at least two electrodes. The heating element is located on the linear supporter and includes at least one linear carbon nanotube structure. The at least two electrodes are separately located and electrically connected to the heating element. | 12-31-2009 |
20090321420 | Carbon nanotube heater - An apparatus includes a hollow heater. The hollow heater includes a hollow supporter, a heating element and at least two electrodes. The hollow supporter has an inner surface and an outer surface. The heating element is attached on one of the inner and the outer surfaces of the hollow supporter. The heat element comprises of a carbon nanotube film comprising of carbon nanotubes arranged along a same direction. The at least two electrodes are electrically connected to the heating element. | 12-31-2009 |
20090321421 | Carbon nanotube heater - An apparatus includes a linear heater. The linear heater includes a linear supporter; a heating element and two or more electrodes. The heating element is located on the linear supporter. The two or more electrodes are separately located and electrically connected to the heating element. At least one of the two or more electrodes includes a carbon nanotube structure. | 12-31-2009 |
20100000669 | Carbon nanotube heater - A method for making a hollow heater is provided. The method includes providing a hollow supporter and, the hollow supporter defines a hollow space. A carbon nanotube structure is made and then fixed on a surface of the hollow supporter. A first electrode and a second electrode is provided and electrically connected to the carbon nanotube structure. | 01-07-2010 |
20100000985 | Carbon nanotube heater - A planar heater includes a heating element and at least two electrodes. The at least electrodes are electrically connected to the heating element. The heating element includes a carbon nanotube film comprising of a plurality of carbon nanotubes. An angle between a primary alignment direction of the carbon nanotubes and a surface of the carbon nanotube film is in the range of about 0 degrees to about 15 degrees. | 01-07-2010 |
20100000986 | Carbon nanotube heater - An apparatus includes a hollow heater. The hollow heater includes a hollow supporter, a heating element and at least two electrodes. The hollow supporter defines a hollow space. The hollow supporter has an inner surface and an outer surface. The heating element is attached on one of the inner and outer surfaces of the hollow supporter. The heat element includes at least one linear carbon nanotube structure. The at least two electrodes are electrically connected to the heating element. | 01-07-2010 |
20100000987 | Carbon nanotube heater - An apparatus includes a linear heater. The linear heater includes a linear supporter, a heating element and at least two electrodes. The heating element is located on the linear supporter and includes a carbon nanotube film. The carbon nanotube film includes a plurality of carbon nanotubes entangled with each other. The at least two electrodes are separately located and electrically connected to the heating element. | 01-07-2010 |
20100000988 | Carbon nanotube heater - An apparatus includes a linear heater. The linear heater includes a linear supporter, a heating element and at least two electrodes. The heating element is located on the linear supporter and includes a carbon nanotube structure. The at least two electrodes are separately located and electrically connected to the heating element. | 01-07-2010 |
20100000989 | Carbon nanotube heater - An apparatus includes a linear heater. The linear heater includes a linear supporter; a heating element and at least two electrodes. The heating element is located on the linear supporter and includes a carbon nanotube film. The carbon nanotube film includes a plurality of carbon nanotubes joined end-to-end by Van der Waals attractive force therebetween. The at least two electrodes are separately located and electrically connected to the heating element. | 01-07-2010 |
20100000990 | Carbon nanotube heater - An apparatus includes a hollow heater. The hollow heater has a hollow supporter, a heating element and at least two electrodes. The at least two electrodes are separately and electrically connected to the heating element. The hollow supporter defines a hollow space, the hollow supporter has an inner surface and an outer surface. The heating element disposed on one of the surfaces of the hollow supporter. The heating element includes a carbon nanotube film. The carbon nanotube film is made of a plurality of carbon nanotubes entangled with each other. | 01-07-2010 |
20100064973 | Apparatus and method for making carbon nanotube array - An apparatus for making an array of carbon nanotubes includes a reaction chamber with a gas inlet and a gas outlet, a quartz boat disposed in the reaction chamber, a substrate with a surface deposited with a film of first catalyst, and a second catalyst disposed in the quartz beside the substrate. The substrate is disposed in the quartz boat. | 03-18-2010 |
20100075469 | Method for making thin transistor - A method for making a thin film transistor, the method comprising the steps of: (a) providing a carbon nanotube array and an insulating substrate; (b) pulling out a carbon nanotube film from the carbon nanotube array by using a tool; (c) placing at least one carbon nanotube film on a surface of the insulating substrate, to form a carbon nanotube layer thereon; (d) forming a source electrode and a drain electrode; wherein the source electrode and the drain electrode being spaced therebetween, and electrically connected to the carbon nanotube layer; and (e) covering the carbon nanotube layer with an insulating layer, and a gate electrode being located on the insulating layer. | 03-25-2010 |
20100108664 | Carbon nanotube heater - An apparatus includes a hollow heater. The hollow heater has a hollow supporter, a heating element and at least two electrodes. The at least two electrodes are separately and electrically connected to the heating element. The hollow supporter defines a hollow space, the hollow supporter has an inner surface and an outer surface. The heating element disposed on one of the surfaces of the hollow supporter. The heating element includes a carbon nanotube structure. The carbon nanotube structure includes a plurality of carbon nanotubes combined by wan der Waals attractive force. | 05-06-2010 |
20100122980 | Carbon nanotube heater - This disclosure related to a heater. The heater includes a heating element and at least two electrodes connected to the heating element. The heating element includes a carbon nanotube composite structure. The carbon nanotube composite structure includes a matrix and at least one carbon nanotube structure. The at least one carbon nanotube structure includes a plurality of carbon nanotubes joined by van der Waals attractive force therebetween to obtain a free-standing carbon nanotube structure. | 05-20-2010 |
20100123267 | Method for stretching carbon nanotube film - A method for stretching a carbon nanotube film includes providing one or more carbon nanotube films and one or more elastic supporters, attaching at least one portion of the one or more carbon nanotube films to the one or more elastic supporters, and stretching the elastic supporters. | 05-20-2010 |
20100124645 | Carbon nanotube film - A carbon nanotube film includes a plurality of carbon nanotube strings and one or more carbon nanotubes. The plurality of carbon nanotube strings are separately arranged and located side by side. Distances between adjacent carbon nanotube strings are changed when a force is applied. One or more carbon nanotubes are located between adjacent carbon nanotube strings. | 05-20-2010 |
20100124646 | Carbon nanotube film - A carbon nanotube film includes a plurality of first carbon nanotubes and a plurality of second carbon nanotubes. The first carbon nanotubes are orientated primarily along a same direction. The second carbon nanotubes have different orientations from that of the plurality of first carbon nanotubes. Each of at least one portion of the second carbon nanotubes contacts with at least two adjacent first carbon nanotubes. | 05-20-2010 |
20100126985 | Carbon nanotube heater - A heater having a heating element includes a carbon nanotube structure and at least two electrodes. The at least two electrodes are electrically connected to the heat element. The carbon nanotube structure includes a plurality of carbon nanotubes. | 05-27-2010 |
20100139845 | Carbon nanotube heater - A method of making a linear heater includes the following steps. Firstly, a linear supporter is provided. Secondly, a carbon nanotube structure is made. Thirdly, the carbon nanotube structure is attached on a surface of the linear supporter. Finally, at least two electrodes are provided and electrically connected to the carbon nanotube structure. | 06-10-2010 |
20100139851 | Carbon nanotube heater - A method for making a heater is provided. A carbon nanotube structure is made, and a first electrode and a second electrode are provided. The first and second electrodes are electrically connected to the carbon nanotube structure. | 06-10-2010 |
20100140257 | Carbon nanotube heater - A heater having a heating element includes a planar carbon nanotube structure and at least two electrodes. The at least two electrodes are electrically connected to the planar carbon nanotube structure. The planar carbon nanotube structure includes a plurality of linear carbon nanotube structure. | 06-10-2010 |
20100140258 | Carbon nanotube heater - An apparatus includes a planar heater. The planar heater includes a heating element and two electrodes. The two electrodes are electrically connected to the heating element. At least one of the two electrodes includes a carbon nanotube structure. The carbon nanotube structure includes at least one carbon nanotube film or at least one linear carbon nanotube structure. | 06-10-2010 |
20100140259 | Carbon nanotube heater - An apparatus includes a linear heater. The linear heater includes a linear supporter, a heating element and at least two electrodes. The heating element is located on the linear supporter and includes a carbon nanotube film. The carbon nanotube film includes a plurality of carbon nanotubes. The angle between an alignment direction of the carbon nanotubes and the surface of the heating element ranges from about 0 degrees to about 15 degrees. The at least two electrodes are separately located and electrically connected to the heating element. | 06-10-2010 |
20100147827 | Carbon nanotube heater - A linear heater includes a linear supporter, a heating element and at least two electrodes. The heating element is located on the linear supporter and includes a carbon nanotube composite structure. The carbon nanotube composite structure includes a matrix and at least one carbon nanotube structures. The at least two electrodes are electrically connected to the heating element. | 06-17-2010 |
20100147828 | Carbon nanotube heater - A linear heater includes a linear supporter, a heating element and at least two electrodes. The heating element is located on the linear supporter and includes a carbon nanotube composite structure. The carbon nanotube composite structure includes a matrix and at least one carbon nanotube film. The at least one carbon nanotube film includes a plurality of carbon nanotubes entangled with each other. The at least two electrodes are electrically connected to the heating element. | 06-17-2010 |
20100147829 | Carbon nanotube heater - A linear heater includes a heating element and at least two electrodes. The heating element includes at least one linear carbon nanotube composite structure. The at least one linear carbon nanotube composite structure includes a matrix and a linear carbon nanotube structure. The at least two electrodes are electrically connected to the heating element. | 06-17-2010 |
20100147830 | Carbon nanotube heater - A linear heater includes a linear supporter, a heating element and at least two electrodes. The heating element is located on the linear supporter and includes a carbon nanotube composite structure. The carbon nanotube composite structure includes a matrix and at least one pressed carbon nanotube film. The pressed carbon nanotube film includes a plurality of carbon nanotubes. The angle between the carbon nanotubes and the surface of the heating element ranges from about 0 degrees to about 15 degrees. The at least two electrodes are electrically connected to the heating element. | 06-17-2010 |
20100154975 | Carbon Nanotube heater - A method of making a linear heater is provided. A carbon nanotube structure having a plurality of micropores is provided. The carbon nanotube structure is fixed on a surface of a linear supporter. At least two electrodes are electrically connected to the carbon nanotube structure. A material is supplied into the carbon nanotube structure to achieve a carbon nanotube composite structure. | 06-24-2010 |
20100163547 | Carbon nanotube heater - This disclosure related to a heater. The heater includes a carbon nanotube composite structure and at least two electrodes connected to the carbon nanotube composite structure. The carbon nanotube composite structure defines a hollow space. The carbon nanotube composite structure includes a matrix and at least one carbon nanotube film. The at least one carbon nanotube film includes a plurality of carbon nanotubes entangled with each other. | 07-01-2010 |
20100170890 | Carbon nanotube heater - This disclosure is related to a heater. The heater includes a hollow supporter, at least one linear carbon nanotube composite structure and at least two electrodes connected to the at least one carbon nanotube composite structure. The at least one linear carbon nanotube composite structure is disposed on a surface of the hollow supporter. The at least one linear carbon nanotube composite structure includes a matrix and a linear carbon nanotube structure. The linear carbon nanotube structure includes a plurality of carbon nanotubes joined by van der Waals attractive force therebetween. | 07-08-2010 |
20100170891 | Carbon nanotube heater - A planar heater includes a planar supporter, two electrodes and a heating element. The heating element is supported by the planar supporter and electrically connected to the two electrodes. The heating element includes at least one carbon nanotube structure and a matrix. The at least one carbon nanotube structure includes a carbon nanotube film including of a plurality of carbon nanotubes entangled with each other. | 07-08-2010 |
20100180429 | CARBON NANOTUBE HEATER - A method for making a planar heater is provided. A first electrode and a second electrode are connected to a carbon nanotube structure having a plurality of micropores. The carbon nanotube structure is fixed on a surface of a planar supporter. A material is supplied into the carbon nanotube structure to achieve a carbon nanotube composite structure. | 07-22-2010 |
20100187221 | Carbon nanotube hearter - This disclosure related to a heater. The heater includes a carbon nanotube composite structure and at least two electrodes connected to the carbon nanotube composite structure. The carbon nanotube composite structure defines a hollow space. The carbon nanotube composite structure includes a matrix and at least one carbon nanotube film. The at least one carbon nanotube film includes a plurality of carbon nanotubes. | 07-29-2010 |
20100200567 | Carbon nanotube heater - An apparatus includes a planar heater. The planar heater includes a heating element and at least two electrodes. The heating element includes a matrix and a plurality of linear carbon nanotube structures dispersed in the matrix. The at least two electrodes are electrically connected to the plurality of linear carbon nanotube structures. | 08-12-2010 |
20100200568 | Carbon nanotube heater - A planar heater includes a planar supporter, two electrodes and a heating element. The heating element is supported by the planar supporter and electrically connected between the two electrodes. The heating element includes at least one carbon nanotube structure and a matrix. The at least one carbon nanotube structure includes a carbon nanotube film including of a plurality of carbon nanotubes. An angle between a primary alignment direction of the carbon nanotubes and a surface of the carbon nanotube film is about 0 degrees to about 15 degrees. | 08-12-2010 |
20100213419 | CARBON NANOTUBE ARRAYS - A carbon nanotube array includes a plurality of carbon nanotubes and at least one line mark formed on the carbon nanotubes. The carbon nanotubes have a top end and a bottom end. The at least one line mark is formed on the carbon nanotubes. The at least one line mark transversely extends across the carbon nanotubes, and is located between the top end and the bottom end. The at least one line mark is spaced from the top and bottom ends. | 08-26-2010 |
20100218367 | Method for making carbon nanotube heater - A method of making a hollow heater, and a carbon nanotube structure, having a plurality of micropores, is provided. The carbon nanotube structure is fixed on a surface of a hollow supporter. At least two electrodes are electrically connected to the carbon nanotube structure. A material is supplied to the carbon nanotube structure to achieve a carbon nanotube composite structure. | 09-02-2010 |
20100230400 | Carbon nanotube heater - An apparatus includes a planar heater. The planar heater includes a heating element and at least two electrodes. The at least two electrodes are separately and electrically connected to the heating element. The heating element includes a carbon nanotube film, and the carbon nanotube film comprises of a plurality of carbon nanotubes entangled with each other. | 09-16-2010 |
20100233472 | Carbon nanotube composite film - A carbon nanotube composite film includes a carbon nanotube film and at least one conductive coating. The carbon nanotube film includes an amount of carbon nanotubes. The carbon nanotubes are parallel to a surface of the carbon nanotube film. The least one conductive coating is disposed about the carbon nanotube. | 09-16-2010 |
20100270911 | CARBON NANOTUBE FILM, CARBON NANOTUBE FILM PRECURSOR, METHOD FOR MANUFACTURING THE SAME AND A LIGHT SOURCE - A carbon nanotube film includes a plurality of successively oriented carbon nanotubes joined end-to-end by Van der Waals attractive force therebetween. The carbon nanotubes define a plurality of first areas and a plurality of second areas. The first areas and the second areas have different densities of carbon nanotubes. A method for manufacturing the same is also provided. A light source using the carbon nanotube film is also provided. | 10-28-2010 |
20110020210 | Method for making twisted carbon nanotube wire - The present invention relates to a method for making a twisted carbon nanotube wire. Two opposite ends of the at least one carbon nanotube film is clamped by two clamps. The two clamps is pulled along two reversed directions to stretch the at least one carbon nanotube film. The at least one carbon nanotube film is twisted by rotating the two clamps while the at least one carbon nanotube film is in a straightening state. | 01-27-2011 |
20110024410 | Carbon nanotube heater - This disclosure is related to a heater. The heater includes a carbon nanotube composite structure and at least two electrodes connected to the carbon nanotube composite structure. The carbon nanotube composite structure defines a hollow space. The carbon nanotube composite structure includes a matrix and at least one carbon nanotube structure. The at least one carbon nanotube structure includes a plurality of carbon nanotubes joined by van der Waals attractive force therebetween. An angle between a primary alignment direction of the carbon nanotubes and a surface of the carbon nanotube structure is about 0 degrees to about 15 degrees. | 02-03-2011 |
20110031218 | METHOD FOR MAKING THERMOACOUSTIC DEVICE - The present invention relates to a method for making a thermoacoustic device. The method includes the following steps. A substrate with a surface is provided. A plurality of microspaces is formed on the surface of the substrate. A sacrifice layer is fabricated to fill the microspaces. A metal film is deposited on the sacrifice layer, and the sacrifice layer is removed. A signal input device is provided to electrically connect with the metal film. | 02-10-2011 |
20110032196 | Touch panel and display device using the same - The present disclosure provides a touch panel and a display device employing the same. The touch panel includes at least one transparent layer consisting of a carbon nanotube metal composite layer including a carbon nanotube layer and a metal layer coated on the carbon nanotube layer. | 02-10-2011 |
20110033069 | THERMOACOUSTIC DEVICE - The present invention relates to a thermoacoustic device that includes an acoustic element. The acoustic element includes a substrate, a plurality of microspaces, and a metal film. The metal film is located above the substrate. A plurality of microspaces is defined between the substrate and the metal film. The metal film is partially suspended above the substrate. | 02-10-2011 |
20110037124 | THIN FILM TRANSISTOR - The present disclosure provides a thin film transistor which includes a source electrode, a drain electrode, a semiconducting layer, an insulating layer and a gate electrode. The drain electrode is spaced apart from the source electrode. The semiconducting layer is electrically connected with the source electrode and the drain electrode. The gate electrode is insulated from the source electrode, the drain electrode, and the semiconducting layer by the insulating layer. At least one of the gate electrode, the drain electrode, the source electrode includes a carbon nanotube composite layer. | 02-17-2011 |
20110063612 | RAMAN DETECTING SYSTEM AND DETECTION METHOD FOR USING THE SAME - A Raman detecting system for detecting a vapor of an explosive includes a surface-enhanced Raman scattering substrate for absorbing the vapor of the explosive. The substrate includes a carbon nanotube film structure and a plurality of metallic particles disposed on the carbon nanotube film structure. The carbon nanotube film structure includes a plurality of stacked carbon nanotube films. | 03-17-2011 |
20110063613 | SURFACE-ENHANCED RAMAN SCATTERING SUBSTRATE AND RAMAN DETECTING SYSTEM HAVING THE SAME - A surface-enhanced Raman scattering substrate includes a carbon nanotube film structure and a plurality of metallic particles disposed on the carbon nanotube film structure. The carbon nanotube film structure includes a number of carbon nanotubes joined by van der Waals attractive force therebetween. The carbon nanotube film structure is a free-standing structure. | 03-17-2011 |
20110095237 | CARBON NANOTUBE COMPOSITE, METHOD FOR MAKING THE SAME, AND ELECTROCHEMICAL CAPACITOR USING THE SAME - A carbon nanotube composite includes a free-standing carbon nanotube structure and an amount of reinforcements. The free-standing carbon nanotube structure includes an amount of carbon nanotubes. The reinforcements are located on the carbon nanotubes and combining the carbon nanotubes together. | 04-28-2011 |
20110096465 | CARBON NANOTUBE COMPOSITE, METHOD FOR MAKING THE SAME, AND ELECTROCHEMICAL CAPACITOR USING THE SAME - An electrochemical capacitor includes a first electrode, a second electrode, a membrane, and an electrolyte. The first electrode includes a carbon nanotube composite. The carbon nanotube composite includes a free-standing carbon nanotube structure, and a plurality of nano grains located on the carbon nanotube structure. The membrane is located between the first electrode and the second electrode, to separate the first electrode from the second electrode. The first electrode, the second electrode, and the membrane are disposed in the electrolyte. | 04-28-2011 |
20110097512 | CARBON NANOTUBE COMPOSITE, METHOD FOR MAKING THE SAME, AND ELECTROCHEMICAL CAPACITOR USING THE SAME - A method for making a carbon nanotube composite includes providing a free-standing carbon nanotube structure and a reacting liquid with a metal compound dissolved therein, treating the carbon nanotube structure by applying the reacting liquid on the carbon nanotube structure, and heating the treated carbon nanotube structure in an oxide-free environment to decompose the metal compound. | 04-28-2011 |
20110146518 | Carbon nanotube-based detonating fuse and explosive device using the same - A detonating fuse includes at least one CNT wire shaped structure. The at least one CNT wire shaped structure includes a plurality of CNTs and an oxidizing material. The oxidizing material is coated on an outer surface of each of the CNTs. | 06-23-2011 |
20110311729 | METHOD FOR MAKING SURFACE-ENHANCED RAMAN SCATTERING SUBSTRATE - A method for making a surface-enhanced Raman scattering (SERS) substrate is introduced. The method includes the following steps. A carbon nanotube film structure and a first solution comprising a number of metallic ions are provided. The carbon nanotube film structure includes a number of carbon nanotubes. Standard electrode potentials of the metallic ions are greater than Fermi energies of the carbon nanotubes. At least part of the carbon nanotube film structure is dipped into the first solution. | 12-22-2011 |
20110318255 | CARBON NANOTUBE STRUCTURE - A carbon nanotube structure includes a number of carbon wires and a number of second carbon nanotubes. Each of the carbon nanotube wires includes a number of first carbon nanotubes joined end to end by the carbon-carbon bonds therebetween. The carbon wires and the carbon nanotubes are joined by van der Waals attractive force therebetween. | 12-29-2011 |
20110318258 | METHOD FOR MAKING CARBON NANOTUBE STRUCTURE - A method for making a carbon nanotube structure is introduced. The method includes the following steps. A carbon nanotube precursor including a number of carbon nanotubes is provided. The carbon nanotube precursor is placed in a chamber with low oxygen environment. The carbon nanotube precursor is heated in the chamber. | 12-29-2011 |
20110318485 | METHOD FOR MAKING COMPOSITE CARBON NANOTUBE STRUCTURE - A method for making a composite carbon nanotube structure includes the following steps. An organic solvent, a polymer, and a carbon nanotube structure are provided. The polymer is dissolved in the organic solvent to obtain a polymer solution. The carbon nanotube film structure is soaked with the polymer solution. A contact angle between the organic solvent and a carbon nanotube is less than 90 degrees. | 12-29-2011 |
20110318486 | METHOD FOR MAKING COMPOSITE CARBON NANOTUBE STRUCTURE - A method for making a composite carbon nanotube structure is introduced. The method includes the following steps. A carbon nanotube structure and a polymer are provided. The polymer and the carbon nanotube structure are composited together. The composite carbon nanotube structure composited with polymer and the carbon nanotube is then graphitized. | 12-29-2011 |
20110318568 | COMPOSITE CARBON NANOTUBE STRUCTURE - A composite carbon nanotube structure includes a carbon nanotube film structure and a graphite structure. The carbon nanotube structure defines a number of micropores therein. The graphite structure and the carbon nanotube film structure are composited together. The graphite structure comprising a number of graphite segments filled in the micropores. | 12-29-2011 |
20110318984 | COMPOSITE CARBON NANOTUBE STRUCTURE - A composite carbon nanotube structure includes a carbon nanotube structure and a graphite structure. The carbon nanotube structure includes a number of carbon nanotubes joined end to end by van der Waals attractive force therebetween. The graphite structure is filled in the carbon nanotube structure. The graphite structure and the carbon nanotube structure are combined by carbon-carbon bonds therebetween. | 12-29-2011 |
20110319522 | METHOD FOR MAKING COMPOSITE CARBON NANOTUBE STRUCTURE - A method for making a composite carbon nanotube structure includes the following steps. An organic solvent, a polymer, and a carbon nanotube structure are provided. The polymer is dissolved in the organic solvent to obtain a polymer solution. The carbon nanotube structure is soaked with the polymer solution. A contact angle between the organic solvent and a carbon nanotube is less than 90 degrees. | 12-29-2011 |
20120004702 | ELECTRONIC PACEMAKER AND PACEMAKER LEAD - A pacemaker lead includes a body and an insulation layer. The body includes at least one carbon nanotube yarn. The at least one carbon nanotube yarn includes a plurality of carbon nanotubes. The carbon nanotubes are interconnected along an axis of the body by van der Waals force. The insulation layer covers an outer surface of the body. | 01-05-2012 |
20120045643 | CARBON NANOTUBE WIRE STRUCTURE AND METHOD FOR MAKING THE SAME - The present disclosure provides a carbon nanotube wire structure. The carbon nanotube wire structure includes a flexible core and a carbon nanotube layer. The carbon nanotube layer wraps around the flexible core. The flexible core is a linear structure. The carbon nanotube layer includes a number of carbon nanotubes oriented around the flexible core in a helix manner. The present disclosure also provides a method for making the carbon nanotube wire structure. | 02-23-2012 |
20120062880 | OPTICAL FIBER PROBE AND RAMAN DETECTING SYSTEM HAVING SAME - An optical fiber probe includes an optical fiber, a carbon nanotube film structure, and a number of metallic particles. The optical fiber includes a detecting end. The carbon nanotube film structure is located on a surface of the detecting end. The carbon nanotube film structure includes a number of carbon nanotubes joined by van der Waals attractive force therebetween. The metallic particles are located on outer surfaces of the carbon nanotubes. | 03-15-2012 |
20120070625 | METHOD FOR MANUFACTURING CARBON NANOTUBE FILM - A method for manufacturing a carbon nanotube film, comprises providing a carbon nanotube array and a drawing tool, positioning the drawing tool close to the carbon nanotube array and selecting some carbon nanotubes of the carbon nanotube array, and drawing the selected carbon nanotubes away from the carbon nanotube array along a drawing direction at a drawing angle, thereby forming the carbon nanotube film. The drawing angle is an angle of inclination between the drawing direction and the growth direction. The drawing angle is less than or equal to 80 degrees. | 03-22-2012 |
20120071472 | RIMINOPHENAZINES WITH 2-(HETEROARYL)AMINO SUBSTITUENTS AND THEIR ANTI-MICROBIAL ACTIVITY - The present invention relates to riminophenazines having heteroaromatic substitutions, including those with 2-heteroaryl-amino substituents, to their preparation, and to their use as drugs for treating | 03-22-2012 |
20120200017 | ELASTIC DEVICE USING CARBON NANOTUBE FILM - An elastic device includes a first elastic supporter; a second elastic supporter and a carbon nanotube film. The second elastic supporter is spaced from the first elastic supporter. The carbon nanotube film has a first side fixed on the first elastic supporter and a second side opposite to the first side and fixed on the second elastic supporter. | 08-09-2012 |
20120202050 | ELASTIC DEVICE USING CARBON NANOTUBE FILM - An elastic device includes a first elastic supporter; a second elastic supporter and a carbon nanotube film. The second elastic supporter is spaced from the first elastic supporter. The carbon nanotube film has a first side fixed on the first elastic supporter and a second side opposite to the first side and fixed on the second elastic supporter. The carbon nanotube film includes a plurality of first carbon nanotubes orientated primarily along a first direction and a plurality of second carbon nanotubes having orientations different from the first direction. At least one portion of each of the second carbon nanotubes contacts with at least two adjacent first carbon nanotubes. The carbon nanotube film is capable of elastic deformation along a second direction that is substantially perpendicular to the first direction. | 08-09-2012 |
20120301620 | METHOD FOR MAKING TRANSPARENT CARBON NANOTUBE COMPOSITE FILMS - The present disclosure relates to a method for making a transparent carbon nanotube composite film. The method includes: (a) providing a transparent carbon nanotube film structure; (b) fixing the transparent carbon nanotube film structure on a supporting; (c) immersing the transparent carbon nanotube film structure with the supporting into a transparent polymer solution; and (d) removing the transparent carbon nanotube film structure with the supporting from the transparent polymer solution, thereby forming the transparent carbon nanotube composite film. A light transmittance of the transparent carbon nanotube composite film structure is higher than a light transmittance of the transparent carbon nanotube film structure. | 11-29-2012 |
20120302880 | SYSTEM AND METHOD FOR SPECIFICITY-BASED MULTIMODALITY THREE- DIMENSIONAL OPTICAL TOMOGRAPHY IMAGING - A system and method for specificity-based multimodality three-dimensional optical tomography imaging comprises steps of: optical imaging to obtain a light intensity of body surface optical signal of an imaging target; CT imaging to obtain structure volume data; establishing an equation representing a linear relationship between the distribution of the obtained light intensity of body surface optical signal of the imaging target, the obtained CT discrete mesh data and the distribution of unknown internal self-luminescence light sources; establishing a dynamic sparse regularization target function in every iteration for the equation; and reconstructing a tomography image. The present invention well considers the optical specificity of tissue, in which there is a non-uniform optical characteristic parameter distribution within the same tissue when finite element modeling is used, which is closer to the real situation, so that an accurate imaging effect is achieved. | 11-29-2012 |
20140040276 | METHOD AND APPARATUS FOR PROCESSING TIME SERIES DATA - The present invention relates to processing of time series data. There is disclosed a method and apparatus for processing time series data, the method comprising: receiving a time series data set, wherein each element of the time series data set contains a timestamp and an original value associated with the timestamp, and times represented by all timestamps constitute a time series having fixed time intervals; converting each original value into a coded value occupying a smaller storage space, according to a predetermined monotone numerical compression coding scheme; dividing the times represented by all timestamps into a plurality of time intervals having a predetermined length; assembling coded values corresponding to all timestamps within each time interval into a data package such that the data package contains coded values arranged in an order of timestamps; and storing in a database record each data package and its associated identification of a time interval. | 02-06-2014 |
20140122022 | PROCESSING TIME SERIES DATA FROM MULTIPLE SENSORS - Processing time sequence data for multiple sensors, wherein the multiple sensors are divided into multiple sensor groups and each data comprises a time stamp and a value associated with the timestamp. The method comprises: receiving time series data from each sensor; assigning the time series data received to a sensor group to which the sensor belongs; storing time series data in a first database of a first memory, such that multiple time series data assigned to the same sensor group in the multiple sensor groups are stored in at least one database record of the first database; obtaining the time series data of each sensor among the multiple sensors from the first database; storing time series data in a second database of a second memory, such that the multiple time series data from the same sensor are stored in at least one database record of the second database. | 05-01-2014 |
20140243327 | RIMINOPHENAZINES WITH 2-(HETEROARYL) AMINO SUBSTITUENTS AND THEIR ANTI-MICROBIAL ACTIVITY - The present invention relates to riminophenazines having heteroaromatic substitutions, including those with 2-heteroaryl-amino substituents, to their preparation, and to their use as drugs for treating | 08-28-2014 |