| Patent application number | Description | Published |
|---|
| 20080223509 | ADHESIVE FILM AND METHOD OF FABRICATING FLEXIBLE DISPLAY USING THE SAME - An adhesive film and a method of fabricating a flexible display using the same are provided. The adhesive film includes: a support including a first surface disposed opposite to a flexible substrate for forming an image display element and a second surface disposed opposite to a support substrate for supporting the flexible substrate; a first adhesive material applied on the first surface of the support; and a second adhesive material applied on the second surface of the support and having a greater adhesive strength than the first adhesive material. The flexible substrate can be easily detached from the support substrate, so that the flexible display can be realized in various sizes and thicknesses using existing equipment without modification of mass-production equipment for realizing the flexible display. | 09-18-2008 |
| 20090028005 | WRISTWATCH-TYPE MOBILE DEVICE - Provided is a wristwatch-type mobile device. The wristwatch-type mobile device includes a wristwatch device, a mobile device, and an I/O device. The I/O device is selectively used as one of an output device of the wristwatch device and an I/O device of the mobile device. | 01-29-2009 |
| 20090188530 | METHOD OF CLEANING FLEXIBLE SUBSTRATE - Provided is a method of cleaning a flexible substrate. The method includes the steps of: preparing a flexible substrate and detaching an impurity adhered to both surfaces of the flexible substrate using rotating first rollers disposed on the both surfaces of the flexible substrate; and removing the impurity by transferring the impurity from the first roller to a second roller using the rotating second roller having a relatively higher adhesion than the first roller. | 07-30-2009 |
| 20090269703 | COLOR ELECTROPHORETIC DISPLAY AND METHOD OF MANUFACTURING THE SAME - Provided are a color electrophoretic display and a method of manufacturing the same. The color electrophoretic display includes: a plurality of lower electrodes arranged on a lower layer and disposed with a predetermined interval therebetween; a plurality of first to third photoresist chambers arranged on the plurality of lower electrodes; first to third electronic inks accommodated in the plurality of first to third photoresist chambers respectively, and discriminatively operating to an electric field to independently display red, green, and blue colors; and a plurality of upper electrodes disposed with a predetermined interval therebetween and facing the plurality of lower electrodes with the plurality of first to third photoresist chambers being held therebetween. | 10-29-2009 |
| 20100035376 | METHOD OF LOCALLY CRYSTALLIZING ORGANIC THIN FILM AND METHOD OF FABRICATING ORGANIC THIN FILM TRANSISTOR USING THE SAME - A method of partially crystallizing an organic thin film and a method of fabricating an organic thin film transistor (OTFT) are provided. An organic thin film used as an active layer of an OTFT is partially coated with an organic solvent by direct graphic art printing or partially annealed by laser beam irradiation, thereby local improving the crystallinity of the organic thin film. The charge mobility of the OTFT can be improved and crosstalk between devices can be reduced without additional patterning the organic thin film. | 02-11-2010 |
| 20100108296 | THIN COOLING DEVICE - Provided is a vapor-liquid phase change cooling device, which may be manufactured with no limitation of thickness. | 05-06-2010 |
| 20100108996 | COMPOSITION FOR ORGANIC THIN FILM TRANSISTOR, ORGANIC THIN FILM TRANSISTOR FORMED BY USING THE SAME, AND METHOD FOR FORMING THE ORGANIC FILM TRANSISTOR - Provided are a composition for organic thin film transistors including a material including an anthracenyl group and a cross-linker including a maleimide group, an organic thin film transistor formed by using the composition, and a method for manufacturing the same. | 05-06-2010 |
| 20100127415 | METHOD FOR PREPARING POLYUREA MICROCAPSULE CONTAINING SATURATED ALCOHOL DISPERSION MEDIUM, AND MICROCAPSULE PREPARED USING THE METHOD - Provided are a method for forming polyurea microcapsules containing a saturated alcohol as a dispersion medium, and microcapsules prepared using the method. According to the method, suspensions, in which microcapsules are dispersed in a saturated alcohol dispersion medium as a core material, may be used to prepare microcapsules. Diverse and fine color expression may be obtained from various response characteristics in the display applications. In addition to superior processibility, excellent thermal stability, solvent resistance, and chemical stability may be achieved by using polyurea in microcapsules as a wall material according to one embodiment of the present invention. | 05-27-2010 |
| 20100141411 | TOUCH SCREEN AND METHOD OF OPERATING THE SAME - Provided are a touch screen and a method of operating the same. The touch screen includes a detecting part, a control part, and a tactile feedback part. The detecting part detects object's approach or contact. The control part receives a signal of the detecting part to output a feedback signal. The tactile feedback part receives the feedback signal of the control part to provide a tactile feedback to a contact position using a magnetic force. The tactile feedback uses the magnetic force of a magnetic dipole. | 06-10-2010 |
| 20100144088 | METHOD FOR FORMING METAL OXIDE AND METHOD FOR FORMING TRANSISTOR STRUCTURE WITH THE SAME - Provided is a method for forming a metal oxide. A method for forming a metal oxide according to embodiments of the present invention includes preparing a metal oxide precursor solution including a dopant chemical species, preparing an alcohol-based solution including a basic chemical species, reacting the alcohol-based solution with the metal oxide precursor solution to form a reactant, and purifying the reactant to form a metal oxide. | 06-10-2010 |
| 20100155684 | NON-VOLATILE MEMORY DEVICE AND METHOD OF FORMING THE SAME - Provided are a non-volatile memory device and a method of forming the non-volatile memory device. The non-volatile memory device includes a substrate, a lower electrode on the substrate, a diffusion barrier preventing the diffusion of a space charge on the lower electrode, a charge storage layer having a space charge limited characteristic on the diffusion barrier, and an upper electrode on the charge storage layer. | 06-24-2010 |
| 20100225994 | MICROCAPSULE PATTERNING METHOD - Provided is a microcapsule patterning method for patterning electrophoretic microcapsules on a substrate, the method including the steps of: preparing a microcapsule slurry in which microcapsules and a water-soluble binder are mixed; putting the microcapsule slurry into a liquid ejector having injection and ejection ports formed therein; and applying the microcapsule slurry contained in the liquid ejector onto the substrate so as to pattern pixels using the microcapsules. Accordingly, specific patterns are formed without physical and chemical damage to the microcapsules. Therefore, the patterns can be used as pixels of flat panel displays. Further, through the patterning, it is possible to implement a color display device which does not exhibit performance degradation | 09-09-2010 |
| 20100237443 | ORGANIC THIN FILM TRANSISTORS AND METHODS OF FORMING THE SAME - Provided is an organic thin film transistor, method of forming the same, and a memory device employing the same. The organic thin film transistor includes a substrate, a source electrode and a drain electrode on the substrate, an active layer on the substrate between the source electrode and the drain electrode, a gate electrode controlling the active layer, and an organic dielectric layer between the active layer and the gate electrode. The organic dielectric layer includes nanoparticles, a hydrophilic polymer surrounding the nanoparticles, and a hydrophobic polymer. | 09-23-2010 |
| 20100300360 | ORGANIC/INORGANIC THIN FILM DEPOSITION DEVICE AND DEPOSITION METHOD - Provided is a method for depositing an organic/inorganic thin film. The method includes: i) heating a source vessel containing an organic material and an inorganic material; ii) transferring a deposition gas to a process chamber; iii) distributing the deposition gas onto a substrate disposed in the process chamber; iv) purging the process chamber; v) heating an activating agent source vessel; vi) transferring a heat initiator gas phase to the process chamber; vii) distributing the heat initiator gas phase onto the organic or inorganic material monomer deposited on the substrate through the process chamber, and forming an organic/inorganic thin film; and viii) exhausting the heat initiator gas phase and purging the process chamber. Depositing the organic/inorganic thin film in a time-division manner, the thickness of the thin film can be accurately adjusted and the deposition can be uniformly performed when the thin film is deposited on a large-scale substrate. | 12-02-2010 |
| 20110094774 | MULTI-LAYER INTERCONNECTION STRUCTURE MANUFACTURING METHOD THEREOF - Provided are a multi-layer interconnection structure and a manufacturing method thereof. The multi-layer interconnection structure includes a substrate; a first wiring on the substrate; an interlayer insulation layer on the first wiring; a second wiring on the interlayer insulation layer; and a via contact including at least one conductive filament penetrating through the interlayer insulation layer between the second wiring and the first wiring to be electrically connected to the first wiring and the second wiring. | 04-28-2011 |
| 20110133257 | TRANSFERRED THIN FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - Provided are a transferred thin film transistor and a method of manufacturing the same. The method includes: forming a source region and a drain region that extend in a first direction in a first substrate and a channel region between the source region and the drain region; forming trenches that extend in a second direction in the first substrate to define an active layer between the trenches, the second direction intersecting the first direction; separating the active layer between the trenches from the first substrate by performing an anisotropic etching process on the first substrate inside the trenches; attaching the active layer on a second substrate; and forming a gate electrode in the first direction on the channel region of the active layer. | 06-09-2011 |
