| Patent application number | Description | Published |
|---|
| 20080237464 | Transmission electron microscope micro-grid and method for making the same - A transmission electron microscope (TEM) micro-grid includes a metallic grid and a carbon nanotube film structure covered thereon. A method for making a TEM micro-grid includes the steps of: (a) providing an array of carbon nanotubes, quite suitably, providing a super-aligned array of carbon nanotubes; (b) drawing a carbon nanotube film from the array of carbon nanotubes; (c) covering the carbon nanotube film on a metallic grid, and treating the carbon nanotube film and the metallic grid with an organic solvent. | 10-02-2008 |
| 20080239489 | Optical polarizer and method for fabricating the same - An optical polarizer includes a supporting member and a polarizing film supported by the supporting member. The polarizing film includes at least one layer of a carbon nanotube film, and the carbon nanotubes in a given carbon nanotube film are aligned in the same direction therein. A method for fabricating the optical polarizer includes the steps of: (a) providing a supporting member; (b) providing at least one layer of a carbon nanotube film, the carbon nanotubes in a given carbon nanotube film aligned along the same direction; and (c) adhering a given carbon nanotube film to the supporting member to form the optical polarizer. | 10-02-2008 |
| 20080245548 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a base, an adhesive layer, and a carbon nanotube layer. The adhesive layer is configured for being sandwiched between the base and the carbon nanotube layer. And a method for making the conductive tape includes the steps of: fabricating at least one carbon nanotube film and an adhesive agent; coating the adhesive agent on a base and drying the adhesive agent on the base so as to form an adhesive layer; and forming a carbon nanotube layer on the adhesive layer and compressing the carbon nanotube layer so as to sandwich the adhesive layer between the carbon nanotube layer and the base. | 10-09-2008 |
| 20080248235 | Carbon nanotube film structure and method for fabricating the same - A carbon nanotube film structure includes at least two overlapped carbon nanotube films, with adjoining films being aligned in different directions. Each carbon nanotube film includes a plurality of successive carbon nanotube bundles aligned in the same direction. The carbon nanotube structure further includes a plurality of micropores formed by/between the adjoining carbon nanotube bundles. A method for fabricating the carbon nanotube film structure includes the steps of: (a) providing an array of carbon nanotubes; (b) pulling out, using a tool, one carbon nanotube film from the array of carbon nanotubes; (c) providing a frame and adhering the carbon nanotube film to the frame; (d) repeating steps (b) and (c), depositing each successive film on a preceding film, thereby achieving at least a two-layer carbon nanotube film; and (e) peeling the carbon nanotube film off the frame to achieve the carbon nanotube structure. | 10-09-2008 |
| 20080258599 | Field emission cathode and method for fabricating the same - A field emission cathode includes a conductive substrate and a carbon nanotube film disposed on a surface of the conductive substrate. The carbon nanotube film includes a plurality of successive and oriented carbon nanotube bundles parallel to the conductive substrate, the carbon nanotubes partially extrude from the carbon nanotube film. A method for fabricating the field emission cathode includes the steps of: (a) providing a conductive substrate; (b) providing at least one carbon nanotube film, the carbon nanotube film including a plurality of successive and oriented carbon nanotube bundles joined end to end, the carbon nanotube bundles parallel to the conductive substrate, and (c) disposing the at least one carbon nanotube film to the conductive substrate to achieve the field emission cathode. | 10-23-2008 |
| 20080299460 | Anode of lithium battery and method for fabricating the same - An anode of a lithium battery includes a supporting member and a carbon nanotube film disposed on a surface of the support member. The carbon nanotube film includes at least two overlapped and intercrossed layers of carbon nanotubes. Each layer includes a plurality of successive carbon nanotube bundles aligned in the same direction. A method for fabricating the anode of the lithium battery includes the steps of: (a) providing an array of carbon nanotubes; (b) pulling out, by using a tool, at least two carbon nanotube films from the array of carbon nanotubes; and (c) providing a supporting member and disposing the carbon nanotube films to the supporting member along different directions and overlapping with each other to achieving the anode of lithium battery. | 12-04-2008 |
| 20090072706 | FIELD EMISSION LIGHT SOURCE - A field emission light source includes a substrate, a cathode conductive layer, a plurality of electron emitters, a transparent substrate, an anode layer and a fluorescent layer. The cathode conductive layer is formed on the substrate. The electron emitters are disposed on the cathode conductive layer. The transparent substrate is spaced from the cathode conductive layer. The anode layer is formed on the transparent substrate facing the electron emitters and includes a carbon nanotube film structure having carbon nanotubes arranged in a preferred orientation. The fluorescent layer is formed on the anode layer facing the electron emitters. | 03-19-2009 |
| 20090268556 | Thermoacoustic device - A sound wave generator that includes a carbon nanotube structure. The carbon nanotube structure produces sound by means of the thermoacoustic effect. | 10-29-2009 |
| 20090268558 | Thermoacoustic device - A sound wave generator includes one or more carbon nanotube wire structures. The one or more carbon nanotube wire structures produce sound by means of the thermoacoustic effect. | 10-29-2009 |
| 20090268559 | Thermoacoustic device - A sound wave generator includes a carbon nanotube structure. The carbon nanotube structure includes of one or more carbon nanotube films. Each carbon nanotube film includes a plurality of carbon nanotubes entangled with each other. The one or more carbon nanotube films produces sound by means of the thermoacoustic effect. | 10-29-2009 |
| 20090268560 | Thermoacoustic device - A sound wave generator includes a carbon nanotube film. The carbon nanotube film comprises a plurality of carbon nanotubes entangled with each other. At least part of the carbon nanotube film is supported by a supporting element. The carbon nanotube film produces sound by means of the thermoacoustic effect. | 10-29-2009 |
| 20090268561 | Thermoacoustic device - An apparatus includes a signal device, a power amplifier, and a sound wave generator. The power amplifier is electrically connected to the signal device. The power amplifier outputs an amplified electrical signal to the sound wave generator. The sound wave generator produces sound waves by a thermoacoustic effect. The amplified electrical signal is positive or negative. | 10-29-2009 |
| 20090268562 | Thermoacoustic device - A sound wave generator includes a carbon nanotube structure. The carbon nanotube structure includes one or more drawn carbon nanotube films. The one or more drawn carbon nanotube films produce sound by means of the thermoacoustic effect. | 10-29-2009 |
| 20090268563 | Acoustic System - An acoustic system includes a sound-electro converting device, a electro-wave converting device, and a sound wave generator. The electro-wave converting device is connected to the sound-electro converting device. The sound wave generator is spaced from the electro-wave converting device and includes a carbon nanotube structure. The sound-electro converting device converts a sound pressure to an electrical signal and transmits the electrical signal to the electro-wave converting device. The electro-wave converting device emits an electromagnetic signal corresponding to the electrical signal and transmits the electromagnetic signal to the carbon nanotube structure. The carbon nanotube structure converts the electromagnetic signal into heat, and the heat transfers to a medium causing a thermoacoustic effect. | 10-29-2009 |
| 20090274008 | Thermoacoustic device - A sound wave generator includes one or more carbon nanotube film. The carbon nanotube film includes a plurality of carbon nanotubes joined end to end by van der Waals attractive force therebetween. At least part of the one or more carbon nanotube film is supported by a supporting element. The one or more carbon nanotube film produces sound by means of the thermoacoustic effect. | 11-05-2009 |
| 20090274009 | Thermoacoustic device - A sound wave generator includes a carbon nanotube structure. At least part of the carbon nanotube structure is supported by a supporting element. The sound wave generator produces sound by means of the thermoacoustic effect. | 11-05-2009 |
| 20090279390 | Thermoacoustic device - An apparatus includes an electromagnetic signal device, a medium, and a sound wave generator. The sound wave generator includes a carbon nanotube structure. The carbon nanotube structure includes one or more carbon nanotube films. Each carbon nanotube film includes a plurality of carbon nanotubes entangled with each other. The electromagnetic signal device transmits an electromagnetic signal to the carbon nanotube structure. The carbon nanotube structure converts the electromagnetic signal into heat. The heat transfers to the medium and causes a thermoacoustic effect. | 11-12-2009 |
| 20090296528 | Thermoacoustic device - An apparatus includes an electromagnetic signal device, a medium, and a sound wave generator. The sound wave generator includes a carbon nanotube structure. The electromagnetic signal device transmits an electromagnetic signal to the carbon nanotube structure. The carbon nanotube structure converts the electromagnetic signal into heat. The heat transfers to the medium and causes a thermoacoustic effect. | 12-03-2009 |
| 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 |
| 20090317926 | METHOD FOR MAKING TRANSMISSION ELECTRON MICROSCOPE GRID - A method for making transmission electron microscope gird is provided. An array of carbon nanotubes is provided and drawing a carbon nanotube film from the array of carbon nanotubes. A substrate has a plurality of spaced metal girds attached on the substrate. The metal girds are covered with the carbon nanotube film and treating the carbon nanotube film and the metal girds with organic solvent. A transmission electron microscope (TEM) grid is obtained by removing remaining CNT film. | 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 |
| 20090323475 | Thermoacoustic device - A sound wave generator includes one or more carbon nanotube films. The carbon nanotube film includes a plurality of carbon nanotubes substantially parallel to each other and joined side by side via van der Waals attractive force. The one or more carbon nanotube films produce sound by means of the thermoacoustic effect. | 12-31-2009 |
| 20090323476 | Thermoacoustic device - A sound wave generator includes one or more carbon nanotube films. The carbon nanotube film includes a plurality of carbon nanotubes substantially parallel to each other and joined side by side via van der Waals attractive force therebetween. At least part of the sound wave generator is supported by a supporting element. The one or more carbon nanotube films produce sound by means of the thermoacoustic effect. | 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 |
| 20100046774 | Thermoacoustic device - A thermoacoustic device includes a signal device and a sound wave generator. The sound wave generator includes a base structure and a conductive material located on the base structure. The base structure includes nano-scale elements. The signal device is capable of transmitting an electrical signal to the sound wave generator. The sound wave generator is capable of converting the electrical signal into heat. The heat is capable of being transferred to a medium to cause a thermoacoustic effect. | 02-25-2010 |
| 20100085729 | Illuminating device - An illuminating device includes a holding element, a light source, and an acoustic member. The acoustic member includes a carbon nanotube structure. | 04-08-2010 |
| 20100086150 | Flexible thermoacoustic device - A flexible thermoacoustic device includes a soft supporter and a sound wave generator. The sound wave generator is located on a surface of the softer supporter. The sound wave generator includes a carbon nanotube structure. The carbon nanotube structure includes a plurality of carbon nanotubes combined by van der Waals attractive force. | 04-08-2010 |
| 20100098272 | Thermoacoustic device - An apparatus includes an electromagnetic signal device, a medium, and a sound wave generator. The sound wave generator includes a carbon nanotube structure. The carbon nanotube structure includes one or more drawn carbon nanotube films. The electromagnetic signal device transmits an electromagnetic signal to the carbon nanotube structure. The carbon nanotube structure converts the electromagnetic signal into heat. The heat transfers to the medium and causes a thermoacoustic effect. | 04-22-2010 |
| 20100098273 | Thermoacoustic device - An apparatus, the apparatus includes an electromagnetic signal device; a medium; and a sound wave generator. The sound wave generator includes a carbon nanotube structure. The carbon nanotube structure includes one or more carbon nanotube films. Each carbon nanotube film includes a plurality of carbon nanotubes substantially parallel to each other and joined side by side via van der Waals attractive force. The electromagnetic signal device transmits an electromagnetic signal to the carbon nanotube structure. The carbon nanotube structure converts the electromagnetic signal into heat. The heat transfers to the medium causing a thermoacoustic effect. | 04-22-2010 |
| 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 |
| 20100110839 | Thermoacoustic device - A thermoacoustic device includes a sound wave generator and an infra-red reflecting element having an infrared reflection coefficient higher than 30 percent. The infra-red reflecting element can be disposed at one side of the sound wave generator to reflect the emitted heat of the sound wave generator. | 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 |
| 20100166231 | Thermoacoustic device - A thermoacoustic device includes a substrate, at least one first electrode, at least one second electrode and a sound wave generator. The at least one first electrode and the at least one second electrode are disposed on the substrate. The sound wave generator is contacting with the at least one first electrode and the at least one second electrode. The sound wave generator is suspended on the substrate via the first electrode and the second electrode. The sound wave generator includes a carbon nanotube structure. | 07-01-2010 |
| 20100166232 | Thermoacoustic module, thermoacoustic device, and method for making the same - A thermoacoustic module includes a substrate, a sound wave generator, at least one first electrode and at least one second electrode. The substrate has a top surface, and the top surface defines at least one recess. The sound wave generator is located on the top surface of the substrate and includes at least one first region suspended above the at least one recess and at least one second region being in contact with the top surface of the substrate. The at least one first electrode and at least one second electrode are coupled to the sound wave generator. | 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 |
| 20100172213 | Thermoacoustic device - A thermoacoustic device includes a thermoacoustic module and a frame. The thermoacoustic module includes a sound wave generator, at least one first electrode and at least one second electrode. The sound wave generator includes at least one carbon nanotube structure. The at least one first electrode and the at least one second electrode are electrically connected to the sound wave generator. The frame secures the thermoacoustic module. | 07-08-2010 |
| 20100172214 | Thermoacoustic device - A thermoacoustic device includes first electrodes, a first conductive element, second electrodes, a second conductive element, first insulators, second insulators and a thermoacoustic film. The first conductive element is electrically connected with the first electrodes. The second conductive element is electrically connected with the second electrodes. The first insulators connect the first electrodes to the second conductive element while insulating them from each other, and the second insulators connect the second electrodes with the first conductive element while insulating them from each other. The thermoacoustic film is electrically connected with the first electrodes and the second electrodes. | 07-08-2010 |
| 20100172215 | Thermoacoustic device - A thermoacoustic device includes a first electrode, a second electrode and a sound wave generator. The first electrode includes a first electrical conductor and a first conductive adhesive layer located on the first electrical conductor. The second electrode includes a second electrical conductor and a second conductive adhesive layer located on the second electrical conductor. The sound wave generator includes a carbon nanotube structure, and the sound wave generator is electrically connected to the first electrical conductor and the second electrical conductor via the first and second conductive adhesive layers. The adhesive layers permeate into the carbon nanotube structure. | 07-08-2010 |
| 20100172216 | Thermoacoustic device - A thermoacoustic device includes a thermoacoustic module, a first protection component, a second protection component, and an infrared-reflective film. The thermoacoustic module includes a sound wave generator, at least one first electrode and at least one second electrode. The at least one first electrode and the at least one second electrode are electrically connected to the sound wave generator. The sound wave generator includes a carbon nanotube structure, and the first and second protection components are located on opposite sides of the sound wave generator. The infrared-reflective film is located on the first protection component. | 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 |
| 20100181482 | TRANSMISSION ELECTRON MICROSCOPE MICRO-GRID - A transmission electron microscope (TEM) micro-grid includes a grid, a carbon nanotube film structure and two electrodes electrically connected to the carbon nanotube film 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 |
| 20100188933 | Thermoacoustic device - A thermoacoustic device includes at least one first electrode, at least one second electrode, a sound wave generator and two protection components. The sound wave generator is electrically connected to the at least one first electrode and the at least one second electrode. The sound wave generator includes a carbon nanotube structure. The two protection components are located on opposite sides of the sound wave generator. | 07-29-2010 |
| 20100188934 | Speaker - A speaker includes a thermoacoustic module, an amplifier circuit board, and a frame. The thermoacoustic module includes a sound wave generator, at least one first electrode and at least one second electrode. The at least one first electrode and the at least one second electrode are electrically connected to the sound wave generator. The sound wave generator includes a carbon nanotube structure. The amplifier circuit board is electrically connected to the carbon nanotube structure by the at least one first electrode and at least one second electrode. The frame secures the thermoacoustic module and the amplifier circuit board. | 07-29-2010 |
| 20100188935 | Thermoacoustic device - A thermoacoustic device includes a sound wave generator, a number of first electrodes and a number of second electrodes. The sound wave generator includes a carbon nanotube structure. The second electrodes and the first electrodes are separately connected to the sound wave generator. The second electrodes and the first electrodes are parallel to each other and are alternately arranged at uniform intervals. A working voltage applied to the first and second electrodes is less than or equal to about 50 volts. The sound wave generator and the first and second electrodes satisfy a formula of | 07-29-2010 |
| 20100189296 | Thermoacoustic device - A speaker includes a base and a thermoacoustic device. The base includes a first connector, a second connector for receiving external signals, a first engaging member, and an amplifier circuit device electrically connecting to the first connector and the second connector. The thermoacoustic device includes a second engaging member and a fourth connector. The thermoacoustic device is detachably installed on the base by a detachable engagement between the first engaging member and the second engaging member and a fourth connector corresponds to the first connector of the base. | 07-29-2010 |
| 20100195849 | THERMOACOUSTIC DEVICE - An amplifier circuit for thermoacoustic device includes a peak hold circuit, an add-subtract circuit, and a power amplifier. The peak hold circuit is configured to accept an audio signal and output a peak hold signal. The add-subtract circuit is configured to accept the audio signal and the peak hold signal, and output a modulated signal after a comparison operation of the audio signal and the peak hold signal. The power amplifier is configured to accept the modulated signal, amplify the modulated signal, and output an amplified voltage signal. | 08-05-2010 |
| 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 |
| 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 |
| 20100260357 | THERMOACOUSTIC MODULE, THERMOACOUSTIC DEVICE, AND METHOD FOR MAKING THE SAME - A thermoacoustic module includes a substrate, at least one first electrode and at least one second electrode located on the substrate, a cover board spaced from the substrate, and a sound wave generator. The cover board defines a plurality of openings. The sound wave generator is located between the cover board and the substrate. The sound wave generator is electrically connected to the at least one first electrode and the at least one second electrode. The sound wave generator is capable of causing a thermoacoustic effect. | 10-14-2010 |
| 20100263783 | Method and device for fabricating carbon nanotube film - A method for fabricating a carbon nanotube film is disclosed. A carbon nanotube array is contacted by an adhesive device having an inclined surface to adhere the carbon nanotubes. The adhesive device is then moved away from the substrate. | 10-21-2010 |
| 20100270704 | Method for making carbon nanotube film - A method for making a carbon nanotube film is provided. In the method, a carbon nanotube array is grown on a substrate, and a rigid drawing device is provided. The carbon nanotube array is adhered to the rigid drawing device via an planar adhesive region of the rigid drawing device. The rigid drawing device is pulled at a speed along a direction away from the substrate, thereby pulling out a continuous carbon nanotube film. The carbon nanotube array includes a plurality of carbon nanotubes. The planar adhesive region have a linear border, wherein the linear border of the planar adhesive region is the closest border of the planar adhesive region to a surface of the substrate. The carbon nanotubes in the carbon nanotube array are adhered via the planar adhesive region. | 10-28-2010 |
| 20100296677 | Flat panel piezoelectric loudspeaker - A flat panel piezoelectric loudspeaker includes a piezoelectric element, a first electrode and a second electrode. The piezoelectric element includes a first surface and a second surface opposite to the first surface. The first electrode is electrically connected to the piezoelectric element and disposed on the first surface. The second electrode is electrically connected to the piezoelectric element and disposed on the second surface. At least one of the first electrode and the second electrode includes a carbon nanotube structure. The carbon nanotube structure includes a plurality of carbon nanotubes approximately aligned along a same direction. | 11-25-2010 |
| 20100301518 | DEVICE AND METHOD FOR MAKING CARBON NANOTUBE FILM - A device for making a carbon nanotube film includes a substrate and a catalyst layer on the substrate. The catalyst layer has two substantially parallel sides. The present disclosure also provides a method for making a carbon nanotube film. The catalyst layer is annealed at a high temperature in air. The annealed catalyst layer is heated up to a predetermined reaction temperature in a furnace with a protective gas therein. A carbonaceous gas is supplied into the furnace to grow a carbon nanotube array having two substantially parallel side faces. A carbon nanotube film is drawn from the carbon nanotube array. A drawing direction is substantially parallel to the two substantially parallel side faces of the carbon nanotube array. | 12-02-2010 |
| 20100305504 | SYRINGE SET AND HEATING DEVICE FOR SAME - A syringe set includes a syringe and a heating device. The heating device includes a heating module in thermal engagement with the syringe and a body supporting the heating module. The heating module includes a first electrode, a second electrode and a heating element. The heating element includes a plurality of carbon nanotubes forming at least one electrically conductive path. The first electrode and the second electrode electrically connect with the carbon nanotubes. | 12-02-2010 |
| 20100308489 | METHOD FOR MAKING CARBON NANOTUBE WIRE STRUCTURE - The present disclosure provides a method for making a carbon nanotube wire structure. A plurality of carbon nanotube arrays is provided. One carbon nanotube film is formed by drawing a number of carbon nanotubes from each of the plurality of carbon nanotube arrays, whereby a plurality of carbon nanotube films is formed. The carbon nanotube films converge at one spot. The carbon nanotube wire structure is formed by treating the carbon nanotube films via at least one of a mechanical method and an organic solvent method. | 12-09-2010 |
| 20100311002 | ROOM HEATING DEVICE CAPABLE OF SIMULTANEOUSLY PRODUCING SOUND WAVES - A room heating device includes a supporting body, a thermoacoustic element, a first electrode and a second electrode. The thermoacoustic element is disposed on the supporting body. The first electrode and the second electrode are connected to the thermoacoustic element. The first electrode is spaced apart from the second electrode. | 12-09-2010 |
| 20100319833 | METHOD FOR MAKING TRANSMISSION ELECTRON MICROSCOPE MICRO-GRID - A method for making a transmission electron microscope (TEM) micro-grid includes the following steps. A carbon nanotube film and a metallic grid are provided. The carbon nantoube film is laid on the metallic gird. The carbon nanotube film with the metallic gird is treated with an organic solvent. Wherein, the carbon nanotube film includes a plurality of carbon nanotube bundles substantially arranged at the same direction. | 12-23-2010 |
| 20110001933 | Projection screen and image projection system using the same - An acoustic projection screen includes a screen base and a carbon nanotube layer. The carbon nanotube layer is attached to the screen base and connected to electrodes. | 01-06-2011 |
| 20110019273 | Optical polarizer - An optical polarizer includes a supporting element and an optical polarizing film supported by the supporting element. The optical polarizing film includes a carbon nanotube film structure and a metallic layer disposed on the carbon nanotube film structure. | 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 |
| 20110036826 | Carbon nanotube heater-equipped electric oven - An electric oven includes an oven body defining a chamber. The heater is located in the chamber of the oven body. The heater includes a carbon nanotube structure. The carbon nanotube structure includes a plurality of carbon nanotubes joined end to end by van der Waals attractive force. | 02-17-2011 |
| 20110036828 | Carbon nanotube fabric and heater adopting the same - A carbon nanotube fabric includes a heating element and at least two electrodes. The heating element includes a plurality of carbon nanotubes joined end to end. The at least two electrodes are separately located and electrically connected to the carbon nanotubes of the heating element. | 02-17-2011 |
| 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 |
| 20110039075 | CARBON NANOTUBE PRECURSOR, CARBON NANOTUBE FILM AND METHOD FOR MAKING THE SAME - A carbon nanotube film includes a plurality of carbon nanotubes. The plurality of carbon nanotubes is arranged approximately along a same first direction. The plurality of carbon nanotubes are joined end to end by van der Waals attractive force therebetween. The carbon nanotube film has a uniform width. The carbon nanotube film has substantially the same density of the carbon nanotubes along a second direction perpendicular to the first direction. The change in density across the width is within 10 percent. The present application also relates to a carbon nanotube film precursor and a method for making the carbon nanotube film. | 02-17-2011 |
| 20110051961 | THERMOACOUSTIC DEVICE WITH HEAT DISSIPATING STRUCTURE - A thermoacoustic device includes at least one first electrode, at least one second electrode, a thermoacoustic element, a base and a plurality of fins. The at least one second electrode is spaced from the at least one first electrode. The thermoacoustic element is electrically connected with the at least one first electrode and the at least one second electrode. The base supports the thermoacoustic element and the at least one first electrode and the at least one second electrode. The fins are in thermal engagement with the base. | 03-03-2011 |
| 20110052478 | METHOD FOR MAKING CARBON NANOTUBE WIRE STRUCTURE - The present disclosure provides a method for making a carbon nanotube wire structure. A plurality of carbon nanotube arrays is provided. One carbon nanotube film is formed by drawing a number of carbon nanotubes from each of the plurality of carbon nanotube arrays, whereby a plurality of carbon nanotube films is formed. The carbon nanotube films converge at one spot. The carbon nanotube wire structure is formed by treating the carbon nanotube films by at least one of a mechanical method and an organic solvent method. | 03-03-2011 |
| 20110056928 | WALL MOUNTED ELECTRIC HEATER - A wall mounted electric heater includes a substrate, a heat insulated sheet, a heating element, at least two electrodes and an enclosure. The heat insulated sheet is disposed on a surface of the substrate. The heating element is disposed on the heat insulated sheet. The heating element includes a carbon nanotube layer structure. The at least two electrodes are electrically connected with the heating element. The enclosure fixes the substrate, the heat insulated sheet and the heating element therein. | 03-10-2011 |
| 20110056929 | ELECTRIC HEATER - An electric heater includes a base, a bracket, a working head and a protecting structure. The bracket is disposed on the base. The working head is disposed on the bracket. The working head includes a supporter and a heating module. The heating module is disposed on the supporter. The heating module includes a heating element and at least two electrodes. The at least two electrodes are electrically connected with the heating element. The heating element includes a carbon nanotube layer structure. The protecting structure covers the heating module. | 03-10-2011 |
| 20110062350 | Infrared physiotherapeutic apparatus - An infrared physiotherapeutic apparatus is provided. The infrared physiotherapeutic apparatus includes a supporting element, an infrared radiating element, and a first and second electrode. The infrared radiating element is mounted on the supporting element. The first electrode and the second electrode are spaced apart from each other and electrically connected to the infrared radiating element. The infrared radiating element includes a carbon nanotube structure. | 03-17-2011 |
| 20110063951 | Active sonar system - An active sonar system includes at least one transmitter to transmit an acoustic signal, at least one receiver to receive a reflected acoustic signal, and an electronic cabinet to control the at least one transmitter to transmit the acoustic signal and the receiver to receive the reflected acoustic signal. At least one transmitter includes at least one carbon nanotube transmitting transducer. At least one carbon nanotube transmitting transducer includes at least one first electrode, at least one second electrode, and an acoustic element. The acoustic element includes a carbon nanotube structure that is electrically connected to at least one first electrode and at least one second electrode. | 03-17-2011 |
| 20110102338 | DISPLAY DEVICE AND TOUCH PANEL THEREOF - A display device includes a display element and a touch panel including a first electrode plate and a second electrode plate. The first electrode plate includes a first conductive layer and two first electrodes electrically connected to the first conductive layer. The second electrode plate includes a second conductive layer and two second electrodes electrically connected to the second conductive layer. The display element includes a plurality of pixels arranged in rows and columns along a first direction and a second direction. At least one of the first conductive layer and the second conductive layer includes a plurality of carbon nanotubes arranged primarily along the same aligned direction. The aligned direction and the second direction define an angle ranging from above 0° to less than or equal to 90°. | 05-05-2011 |
| 20110110535 | Carbon nanotube speaker - A speaker includes an sound wave generator, at least one first electrode, at least one second electrode, an amplifier circuit, and a connector. The at least one first electrode and the at least one second electrode are electrically connected to the sound wave generator. The amplifier is electrically connected to the at least one first electrode and the at least one second electrode. The connector is electrically connected to the amplifier circuit. The sound wave generator includes a carbon nanotube structure and insulative reinforcement structure compounded with the carbon nanotube structure. | 05-12-2011 |
| 20110115727 | DISPLAY DEVICE AND TOUCH PANEL THEREOF - A touch panel includes a first electrode plate, a second electrode plate, and a continuous transparent insulating layer. The first electrode plate includes a first conductive layer. The second electrode plate includes a second conductive layer opposite to and spaced from the first conductive layer. The continuous transparent insulating layer is located between the first conductive layer and the second conductive layer. At least one of first conductive layer and the second conductive layer includes a carbon nanotube structure. | 05-19-2011 |
| 20110134058 | TOUCH PANEL INCORPORATING CARBON NANOTUBE FILM - A touch panel includes a first electrode plate having a first conductive layer and a second electrode plate including a second conductive layer opposite to the first conductive layer. At least one of the first conductive layer and the second conductive layer includes a carbon nanotube film. The carbon nanotube film includes a number of thin regions and at least one normal region having a number of successively oriented carbon nanotubes joined end-to-end by Van der Waals attractive force therebetween. The carbon nanotubes are substantially aligned along a same direction. The at least one normal region has a density of carbon nanotubes greater than that of the number of thin regions, and the number of thin regions form at least one row extending along the aligned direction of the carbon nanotubes of the at least one normal region. | 06-09-2011 |
| 20110135894 | VARIABLE-DENSITY CARBON NANOTUBE FILM AND METHOD FOR MANUFACTURING THE SAME - A method for making a variable-density carbon nanotube film is provided. A drawn carbon nanotube film, including a number of carbon nanotubes aligned along an aligned direction, is prepared. A number of thin regions are formed in the drawn carbon nanotube film along the aligned direction by reducing density of carbon nanotubes in each of the plurality of thin regions. A variable-density carbon nanotube film is provided and includes a number of thin regions and at least one normal region having a density of carbon nanotubes greater than that of the thin regions. The at least one normal region includes a number of carbon nanotubes substantially aligned along an aligned direction. The thin regions are arranged in the form of at least one row extending along the aligned direction. | 06-09-2011 |
| 20110139361 | METHOD FOR MAKING CARBON NANOTUBE FILM - A method for making a carbon nanotube film is disclosed. A carbon nanotube array formed on a continuously curving surface of a growing substrate is provided. A carbon nanotube segment is selected from the carbon nanotube array. The carbon nanotube segment is drawn away from the carbon nanotube array to achieve the carbon nanotube film. | 06-16-2011 |
| 20110140309 | METHOD FOR MAKING CARBON NANOTUBE STRUCTURE - The present disclosure relates to a method for making a carbon nanotube structure. The method includes steps of providing a tubular carbon nanotube array; selecting a carbon nanotube segment having a predetermined width from the tubular carbon nanotube array using a drawing tool; and drawing the carbon nanotube segment along a radial direction of the tubular carbon nanotube array to achieve the carbon nanotube structure. | 06-16-2011 |
| 20110142744 | METHOD FOR MAKING CARBON NANOTUBE STRUCTURE - The present disclosure relates to a method for making a carbon nanotube carbon nanotube structure. The method includes steps of providing a tubular carbon nanotube array; and drawing out a carbon nanotube structure from the tubular carbon nanotube array by using a drawing tool. The carbon nanotube structure is a carbon nanotube film or a carbon nanotube wire. | 06-16-2011 |
| 20110142745 | METHOD AND APPARATUS FOR FORMING CARBON NANOTUBE ARRAY - The present disclosure relates to a method for forming a carbon nanotube array. In the method a tubular substrate is provided. The tubular substrate includes an outer sidewall with a catalyst layer located on the outer sidewall. The heating member, and the tubular substrate with the catalyst layer is received in a reacting chamber. The tubular substrate is heated by the heating member. A carbon source gas is supplied into the reacting chamber to grow the carbon nanotube array on the tubular substrate. | 06-16-2011 |
| 20110155312 | METHOD FOR MAKING CARBON NANOTUBE FILM - A method for making a carbon nanotube film includes fabricating a carbon nanotube array grown on a substrate. A drawing tool and a supporting member, having a surface carrying static charges, are provided. The static charges of the surface of the supporting member are neutralized. A plurality of carbon nanotubes in the carbon nanotube array is contacted and chosen by the drawing tool. The drawing tool is then moved along a direction away from the carbon nanotube array, thereby pulling out a carbon nanotube film. The carbon nanotube film is adhered the surface of the supporting member. | 06-30-2011 |
| 20110157038 | TOUCH PANEL AND FABRICATION METHOD THEREOF - A touch panel includes a substrate, an adhesive layer, and a transparent conductive layer fixed on the substrate by the adhesive layer. The conductive layer includes a carbon nanotube layer with a surface roughness Ra thereof less than or equal to about 0.1 μm. A fabrication method for a touch panel includes reducing the surface roughness Ra of the carbon nanotube layer to less than or equal to about 0.1 μm by applying pressure on the carbon nanotube layer via a press tool with a flat surface. A surface roughness Ra of the flat surface is less than or equal to about 0.1 μm. | 06-30-2011 |
| 20110158446 | THERMOACOUSTIC DEVICE WITH FLEXIBLE FASTENER AND LOUDSPEAKER USING THE SAME - A thermoacoustic device includes a base, a plurality of first fasteners, at least one first electrode, at least one second electrode and a sound wave generator. Each of the first fasteners includes a body engaging with the base and a flexible element extending from the body. The at least one first electrode has a first end and a second end. The first end engages with the flexible element of the plurality of first fasteners, and the second end is secured on the base. The at least one second electrode has a third end and a fourth end. The third end engages with the flexible element of the plurality of first fasteners, and the fourth end is secured on the base. The sound wave generator is electrically connected to the at least one first electrode and the at least one second electrode. | 06-30-2011 |
| 20110159190 | METHOD FOR FABRICATING CARBON NANOTUBE FILM - A method for fabricating a carbon nanotube film includes the following steps: providing a vacuum chamber having a carbon nanotube array therein; and pulling a carbon nanotube film out from the carbon nanotube array. | 06-30-2011 |
| 20110159269 | WINDOW FILM AND VEHICLE USING THE SAME - A window film includes a polymer film, at least one carbon nanotube film, and a protective layer. The at least one carbon nanotube film is embedded in the polymer film. The protective layer is located on a surface of the polymer film. The at least one carbon nanotube film is located between the protective layer and the polymer film. | 06-30-2011 |
