Patent application number | Description | Published |
20080224128 | Thin film transistor for display device and manufacturing method of the same - Provided are a thin film transistor for display devices and a manufacturing method of the thin film transistor. The thin film transistor for display devices includes: a flexible substrate; a gate electrode layer formed on the flexible substrate; a first insulating layer formed on the flexible substrate and the gate electrode; a source and a drain formed on the first insulating layer; an active layer formed on the first insulating layer between the source and the drain; a second insulating layer formed on the first insulating layer, the source, the drain, and the active layer; and a drain electrode that opens the second insulating layer to be connected to the drain and is formed of a CNT dispersed conductive polymer. | 09-18-2008 |
20100167433 | PIEZOELECTRIC INKJET PRINTHEAD AND METHOD OF MANUFACTURING THE SAME - A piezoelectric inkjet printhead including an upper substrate formed of a single crystal silicon substrate or an SOI substrate and having an ink inlet therethrough, and a lower substrate formed of an SOI substrate having a sequentially stacked structure with a first silicon layer, an intervening oxide layer, and a second silicon layer in which a manifold, pressure chambers, and dampers are formed in the second silicon layer by wet or dry etching, and nozzles are formed through the intervening oxide layer and the first silicon layer by dry etching, and a method of manufacturing the same. | 07-01-2010 |
20110127518 | Transistor, method of manufacturing the transistor and electronic device including the transistor - Provided are a transistor, a method of manufacturing the transistor, and an electronic device including the transistor. The transistor may include a passivation layer on a channel layer, a source, a drain, and a gate, wherein the component of the passivation layer is varied in a height direction. The passivation layer may have a multi-layer structure including a silicon oxide layer, a silicon oxynitride layer, and a silicon nitride layer sequentially stacked. The channel layer may include an oxide semiconductor. | 06-02-2011 |
20110133176 | Transistor and electronic apparatus including same - Transistors and electronic apparatuses including the same are provided, the transistors include a channel layer on a substrate. The channel layer includes a zinc (Zn)-containing oxide. The transistors include a source and a drain, respectively, contacting opposing ends of the channel layer, a gate corresponding to the channel layer, and a gate insulating layer insulating the channel layer from the gate. The channel layer has a first surface adjacent to the substrate, a second surface facing the first surface, and a channel layer-protection portion on the second surface. The channel layer-protection portion includes a fluoride material. | 06-09-2011 |
20120287507 | WIRE GRID POLARIZERS, METHODS OF FABRICATING A WIRE GRID POLARIZER, AND DISPLAY PANELS INCLUDING A WIRE GRID POLARIZER - Wire grid polarizers, methods of fabricating a wire grid polarizer and display panels including a wire grid polarizer are provided, the methods include preparing a mold having a lower surface in which a plurality of parallel fine grooves are formed, and arranging the mold on a transparent substrate. The plurality of parallel fine grooves are filled with a conductive liquid ink. A plurality of parallel conductive nano wires are formed on the transparent substrate by curing the conductive liquid ink. The mold is removed. | 11-15-2012 |
20130050802 | ELECTROWETTING DEVICE AND METHOD OF MANUFACTURING THE SAME - In one embodiment, the electrowetting device includes a first medium; a second medium that is not mixed with the first medium and has a refractive index different from a refractive index of the first medium; an upper electrode that adjusts an angle of a boundary surface between the first medium and the second medium; and a barrier wall that has a side surface surrounding the first and second mediums, allows the upper electrode to be disposed on a portion of the side surface, and has irregular widths. | 02-28-2013 |
20130098540 | GRAPHENE-TRANSFERRING MEMBER, GRAPHENE TRANSFERRER, METHOD OF TRANSFERRING GRAPHENE, AND METHODS OF FABRICATING GRAPHENE DEVICE BY USING THE SAME - Graphene transferring members, graphene transferrer, methods of transferring graphene, and methods of fabricating a graphene device, may include a metal thin-film layer pattern and a graphene layer sequentially stacked on an adhesive member. The metal thin-film layer and the graphene layer may have the same shape. After transferring the graphene layer onto a transfer-target substrate during the fabrication of a graphene device, the metal thin-film layer is patterned to form electrodes on respective ends of the graphene layer by removing a portion of the metal thin-film layer. | 04-25-2013 |
20130168640 | INVERTER DEVICE, NAND DEVICE, NOR DEVICE, AND LOGIC DEVICE INCLUDING THE SAME - An inverter device including a tunable diode device and a diode device that includes a control terminal connected to an input terminal of the inverter device, an anode terminal connected to a high-level voltage terminal, and a cathode terminal connected to an output terminal of the inverter device, wherein the diode device is configured to turn on or off according to a voltage applied to the control terminal. | 07-04-2013 |
20130176072 | TOUCH SENSOR AND TOUCH PANEL INCLUDING THE SAME - A touch sensor using a graphene diode and/or a touch panel including the touch sensor. The touch sensor includes a first sensing electrode configured to sense a touch; a first output line configured to transmit an electrical signal; and a first diode device including a first control terminal connected to the first sensing electrode, a first anode terminal connected to a voltage application unit, and a first cathode terminal connected to the first output line. | 07-11-2013 |
20130193411 | GRAPHENE DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a graphene device may include forming a device portion including a graphene layer on the first substrate; attaching a second substrate on the device portion of the first substrate; and removing the first substrate. The removing of the first substrate may include etching a sacrificial layer between the first substrate and the graphene layer. After removing the first substrate, a third substrate may be attached on the device portion. After attaching the third substrate, the second substrate may be removed. | 08-01-2013 |
20130193412 | TRANSISTORS AND METHODS OF MANUFACTURING THE SAME - Transistors and methods of manufacturing the same may include a gate on a substrate, a channel layer having a three-dimensional (3D) channel region covering at least a portion of a gate, a source electrode over a first region of the channel layer, and a drain electrode over a second region of the channel layer. | 08-01-2013 |
20130277644 | GRAPHENE SWITCHING DEVICE INCLUDING TUNABLE BARRIER - A graphene switching device includes a first electrode and an insulating layer in first and second regions of the semiconductor substrate, respectively, a plurality of metal particles on a surface of the semiconductor substrate between the first and second regions, a graphene layer on the plurality of metal particles and extending on the insulating layer, a second electrode on the graphene layer in the second region and configured to face the insulating layer, a gate insulating layer configured to cover the graphene layer, and a gate electrode on the gate insulating layer. The semiconductor substrate forms an energy barrier between the graphene layer and the first electrode. | 10-24-2013 |
20140021446 | TRANSISTORS AND METHODS OF MANUFACTURING THE SAME - Transistors, and methods of manufacturing the transistors, include graphene and a material converted from graphene. The transistor may include a channel layer including graphene and a gate insulating layer including a material converted from graphene. The material converted from the graphene may be fluorinated graphene. The channel layer may include a patterned graphene region. The patterned graphene region may be defined by a region converted from graphene. A gate of the transistor may include graphene. | 01-23-2014 |
20140030857 | GRAPHENE DEVICE MANUFACTURING APPARATUS AND GRAPHENE DEVICE MANUFACTURING METHOD USING THE APPARATUS - A graphene device manufacturing apparatus includes an electrode, a graphene structure including a metal catalyst layer formed on a substrate, a protection layer, and a graphene layer between the protection layer and the metal catalyst layer, a power unit configured to apply a voltage between the electrode and the metal catalyst layer, and an electrolyte in which the graphene structure is at least partially submerged. | 01-30-2014 |
20140061590 | GRAPHENE DEVICE AND METHOD OF MANUFACTURING THE SAME - The method of manufacturing a graphene device includes forming an insulating material layer on a substrate, forming first and second metal pads on the insulating material layer spaced apart from each other, forming a graphene layer having a portion defined as an active area between the first and second metal pads on the insulating material layer, forming third and fourth metal pads on the graphene layer spaced apart from each other with the active area therebetween, the third and fourth metal pads extending above the first metal pad and the second metal pad, respectively, forming a first protection layer to cover all the first and second metal pads, the graphene layer, and the third and fourth metal pads, and etching an entire surface of the first protection layer until only a residual layer made of a material for forming the first protection layer remains on the active area. | 03-06-2014 |
20140125310 | NANOGAP DEVICE AND METHOD OF PROCESSING SIGNAL FROM THE NANOGAP DEVICE - A nanogap device includes a first insulation layer having a nanopore formed therein, a first nanogap electrode which may be formed on the first insulation layer and may be divided into two parts with a nanogap interposed between the two parts, the nanogap facing the nanopore, a second insulation layer formed on the first nanogap electrode, a first graphene layer formed on the second insulation layer, a first semiconductor layer formed on the first graphene layer, a first drain electrode formed on the first semiconductor layer, and a first source electrode formed on the first graphene layer such as to be apart from the first semiconductor layer. | 05-08-2014 |
20140125322 | NANOGAP DEVICE AND METHOD OF PROCESSING SIGNAL FROM THE NANOGAP DEVICE - A nanogap device which may include a first insulation layer having a nanopore formed therein, a first channel layer which may be on the first insulation layer, a first source electrode and a first drain electrode which may be respectively in contact with both ends of the first channel layer, a second insulation layer which may cover the first channel layer, the first source electrode, and the first drain electrode, and a first nanogap electrode which may be on the second insulation layer and may be divided into two parts with a nanogap, which faces the nanopore, interposed between the two parts. | 05-08-2014 |
20140191198 | GRAPHENE ELECTRONIC DEVICES AND METHODS OF MANUFACTURING THE SAME - A graphene electronic device includes: a first conductive layer and a semiconductor layer on a first region of an intermediate layer; a second conductive layer on a second region of the intermediate layer; a graphene layer on the intermediate layer, the semiconductor layer, and the second conductive layer; and a first gate structure and a second gate structure on the graphene layer. | 07-10-2014 |
20140335681 | GRAPHENE TRANSFERRING METHODS, DEVICE MANUFACTURING METHOD USING THE SAME, AND SUBSTRATE STRUCTURES INCLUDING GRAPHENE - Graphene transferring methods, a device manufacturing method using the same, and substrate structures including graphene, include forming a catalyst layer on a first substrate, forming a graphene layer on the catalyst layer, forming a protection metal layer on the graphene layer, attaching a supporter to the protection metal layer, separating the first substrate from the catalyst layer such that the protection metal layer, the graphene layer, and the catalyst layer remain on the supporter, removing the catalyst layer from the supporter, and transferring the protection metal layer and the graphene layer from the supporter to a second substrate. | 11-13-2014 |