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| Application No. | Application Title | Issue Date |
| 20110080006 | Method A method for generating power from water by pressure retarded osmosis comprises the steps of: pumping sea water into a first pathway which is at least partially defined by a first face of a membrane, said membrane comprising a distinct electrically conductive porous nan... | 04/07/2011 |
| 20110042683 | CRACK FREE MULTILAYERED DEVICES, METHODS OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME Disclosed herein is an article comprising a substrate; an interlayer comprising aluminum nitride, gallium nitride, boron nitride, indium nitride or a solid solution of aluminum nitride, gallium nitride, boron nitride and/or indium nitride; the interlayer being directly ... | 02/24/2011 |
| 20110003410 | METHOD OF MANUFACTURING A LIGHT EMITTING DIODE ELEMENT A method of manufacturing a light emitting diode element is provided. A first patterned semi-conductor layer, a patterned light emitting layer, and a second patterned semi-conductor layer are sequentially formed on an epitaxy substrate so as to form a plurality of epita... | 01/06/2011 |
| 20100055568 | TRANSITION METAL OXIDES/MULTI-WALLED CARBON NANOTUBE NANOCOMPOSITE AND METHOD FOR MANUFACTURING THE SAME The present invention relates to a transition metal oxide/multi-walled carbon nanotube nanocomposite and its preparation method, and particularly to a nanocomposite prepared in a composite form of an electron-transmitting and stress-relaxing one-dimensional multi-walled... | 03/04/2010 |
| 20090226781 | FUEL CELL DEVICE AND SYSTEM Fuel cell devices and systems are provided. In certain embodiments, the devices include a ceramic support structure having a length, a width, and a thickness. A reaction zone positioned along a portion of the length is configured to be heated to an operating reaction te... | 09/10/2009 |
| 20090101996 | NANOSTRUCTURES WITH ELECTRODEPOSITED NANOPARTICLES A nanoelectronic device includes a nanostructure, such as a nanotube or network of nanotube, disposed on a substrate. Nanoparticles are disposed on or adjacent to the nanostructure so as to operatively effect the electrical properties of the nanostructure. The nanoparti... | 04/23/2009 |
| 20090092165 | LASER DIODE HAVING NANO PATTERNS AND METHOD OF FABRICATING THE SAME A laser diode having nano patterns is disposed on a substrate. A first conductive-type clad layer is disposed on the substrate, and a second conductive-type clad layer is disposed on the first conductive-type clad layer. An active layer is interposed between the first c... | 04/09/2009 |
| 20080216558 | Saw based CO2 sensors using carbon nanotubes as the sensitive layer A surface acoustic wave based CO2 sensor using carbon nanotubes as the sensitive layer fabricated by combining surface acoustic wave (SAW) devices and nanotechnology. The device structure consists of the gas sensitive material between the input and output int... | 09/11/2008 |
| 20070272973 | Semiconductor memory devices including recess-type control gate electrodes and methods of fabricating the semiconductor memory devices A semiconductor memory device includes a semiconductor substrate, a control gate electrode recessed in the semiconductor substrate, a storage node layer interposed between a sidewall of the control gate electrode and the semiconductor substrate, a tunneling insulation l... | 11/29/2007 |
| 20070200477 | NANOFABRICATION Pathways to rapid and reliable fabrication of three-dimensional nanostructures are provided. Simple methods are described for the production of well-ordered, multilevel nanostructures. This is accomplished by patterning block copolymer templates with selective exposure ... | 08/30/2007 |
| 20060292848 | Method for manufacturing nano-gap electrode device Provided is a method for manufacturing a nano-gap electrode device comprising the steps of: forming a first electrode on a substrate; forming a spacer on a sidewall of the first electrode; forming a second electrode on an exposed substrate at a side of the spacer; and f... | 12/28/2006 |
