Patent application number | Description | Published |
20140036167 | TOUCH PANEL MODULE AND MANUFACTURING METHOD THEREOF - A touch panel module includes an integrated panel and a casing. The integrated panel defines a transparent region and a non-transparent region around the transparent region. The integrated panel has a covering substrate, a decorating layer disposed on the inner surface of the covering substrate and arranged in the non-transparent region, a sensing electrode layer disposed on the inner surface of the covering substrate and arranged in the transparent region, a circuit layer disposed on the decorating layer and electrically connected to the sensing electrode layer, and a protective layer at least covering par of the decorating layer and part of the circuit layer. The casing is formed by injection molding, wherein one portion of the casing is arranged in the non-transparent region and formed on the protective layer, and another portion of the casing covers a circumferential lateral edge of the integrated panel. | 02-06-2014 |
20140054145 | TOUCH DEVICE AND FABRICATION METHOD THEREOF - A touch device including a touch panel is provided. The touch panel includes a substrate having a touching surface and a bonding surface opposite to the touching surface, and further having a viewable area and a non-viewable area surrounding the viewable area. A colorful decoration layer is disposed on the bonding surface of the substrate and at the non-viewable area. The colorful decoration layer has a gradient side adjacent to the viewable area. A planarization layer completely covers the gradient side of the colorful decoration layer and the bonding surface of the substrate. A touch sensing layer is disposed on the planarization layer and extended from the viewable area to the non-viewable area. Further, a method for fabricating a touch device is provided. | 02-27-2014 |
20140104509 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - The present invention provides a touch panel including a touch sensor and a connecting board. The touch sensor includes a touch substrate and a sensing electrode matrix with a plurality of connecting ends. The sensing electrode matrix is formed on the touch substrate, wherein the connecting ends of the sensing electrode matrix are separately located at at least two sides of the sensing electrode matrix. The connecting board is connected to the touch sensor, and the conducting wires in the connecting board are electrically connected to the connecting ends of the sensing electrode matrix. Furthermore, a touch panel manufacturing method is also provided. | 04-17-2014 |
20140124352 | TOUCH DEVICE AND FABRICATION METHOD THEREOF - A touch device is provided. The touch device includes a decorative layer formed on at least one side of a sensing electrode layer and disposed for corresponding to the sensing electrode layer to constitute a vacant space, a signal-conveying trace disposed on the decoration layer, an insulating layer formed to fill the vacant space, and a conductive layer formed on the insulating layer and bridging over the sensing electrode layer and the decorative layer through the buffer function of the insulating layer for electrically connecting the sensing electrode layer with the signal-conveying trace. Further, a method for fabricating the touch device is also provided. | 05-08-2014 |
20140232957 | TOUCH PANEL DEVICE AND METHOD FOR MANUFACTURING THE SAME - A touch panel device is provided, having a cover plate, a first mask layer, a signal trace layer and a second mask layer. The cover plate has a visible area and a shield area at a side of the visible area. The shield area is divided into first, second area, third areas sequentially from the visible area to an edge of the shield area. The first mask layer disposed in the first and second areas of the shield area over a surface of the cover plate, wherein the first mask layer has a flat surface. The signal trace layer is disposed in the first area of the shield area over the flat surface. The second mask layer is at least disposed in the third area near the edge of the cover plate. A viscosity of the second mask layer is larger than a viscosity of the first mask layer | 08-21-2014 |
20140320765 | TOUCH PANEL AND FABRICATION METHOD THEREOF - A touch panel having a display region and a periphery region is disclosed, wherein the touch panel comprises a cover substrate, a patterned mask layer formed on the cover substrate and the patterned mask layer includes a pattern region. The periphery region is defined by the patterned mask layer. A first electrode pattern having a plurality of first jumpers is disposed on the cover substrate and correspondingly to the display region, and a second electrode pattern having a plurality of second jumpers is disposed on the patterned mask layer and correspondingly to the pattern region, wherein the first jumpers and the second jumpers comprise different materials. | 10-30-2014 |
20150068883 | TOUCH PANEL AND MANUFACTURING PROCESS THEREOF - A touch panel includes a plurality of first electrodes arranged along a first direction and parallel to each other, wherein each first electrode includes a plurality of first electrode blocks and a plurality of first connection traces. A plurality of second electrodes arranged along a second direction and parallel to each other, wherein each second electrode includes a plurality of second electrode blocks and a plurality of second connection traces. And a plurality of insulating blocks, wherein each insulating block includes a main portion and at ;east one extending portion, the main portion is disposed between each first connection trace and each second connection trace, the extending portion extends from the main portion to the space between the first electrode block and the second electrode block. The present invention further provides a method for forming the touch panel mentioned above. | 03-12-2015 |
Patent application number | Description | Published |
20110017407 | CHIP SORTING APPARATUS - A chip sorting apparatus comprising a chip holder comprising a first surface and an second surface opposite to the first surface; a wafer comprising a first chip disposed on a first position of the first surface; a first chip receiver comprising a third surface and an fourth surface opposite to the third surface, wherein the third surface is opposite to the first surface; a pressurization device making the first chip and the third surface of the first chip receiver adhered to each other through pressuring the second surface at where corresponding to the first position; and a separator decreasing the adhesion between the first chip and the first surface. | 01-27-2011 |
20140202627 | CHIP SORTING APPARATUS - A method of chip sorting comprises providing a chip holder having a first surface; providing multiple chips on the first surface; providing a chip receiver having a second surface, wherein the second surface faces the first surface; attaching the multiple chips to the second surface; decreasing an adhesion between the multiple chips and the first surface; and separating the multiple chips from the first surface after the step of decreasing the adhesion between the multiple chips and the first surface. | 07-24-2014 |
20140299901 | LIGHT EMITTING DIODE AND MANUFACTURING METHOD THEREOF - A light-emitting diode, comprising: a substrate, the substrate comprising an upper surface, a bottom surface opposite to the upper surface, and a side surface; a first type semiconductor layer on the upper surface, wherein the first type semiconductor layer comprises a first portion and a second portion, and the second portion comprises an edge surrounding the first portion; a light-emitting layer on the first portion; and a second type semiconductor layer on the light-emitting layer, wherein the second portion comprising a first surface and a second surface, and a first distance is between the first surface and the upper surface, and a second distance is between the second surface and the upper surface and is smaller than the first distance; wherein the first surface is rougher than the second surface, and the second surface is located at the edge. | 10-09-2014 |
Patent application number | Description | Published |
20090231685 | OPTICAL AMPLIFIER FOR TUNING TRANSMISSION TIME OF OPTICAL SIGNAL - The present invention relates to a technique for tuning the transmission time of optical signal, which adopts an optical amplifier with a bending structure for enhancing the tunable time of optical signal. The effect of tunable time of optical signal can be achieved by adjusting the gain of the optical amplifier. | 09-17-2009 |
20100215062 | WAVELENGTH OR PULSEWIDTH TUNABLE MODE-LOCKED FIBER LASER SYSTEM - A wavelength-tunable mode-locked fiber laser system is provided and includes an optical cavity. The optical cavity outputs an output laser pulse having an adjustable principal wavelength, and includes a short-wavelength-pass filter, a polarization controller, an optical gain fiber and a fiber. The short-wavelength-pass filter produces an intracavity laser pulse. The fiber has a length, and connects the short-wavelength-pass filter, the polarization controller and the optical gain fiber in series. The optical cavity has an anomalous dispersion range and a net group-velocity dispersion being within the anomalous dispersion range due to the length of the fiber. The optical cavity causes the intracavity laser pulse to propagate therein for providing the output laser pulse, providing a first laser pulse, a second laser pulse and a third laser pulse to the short-wavelength-pass filter, the polarization controller and the optical gain fiber respectively, and adjusting the intracavity laser pulse. | 08-26-2010 |
20100316378 | Laser Source Based On Fabry-Perot Laser Diodes And Seeding Method Using The Same - Disclosed is directed to a laser source based on Fabry-Perot laser diodes (FP-LDs) and seeding method using the same. The laser source comprises a plurality of FP-LDs, an optical filter, and at least a fiber mirror. The FP-LDs are aligned to their corresponding filter modes of the optical filter, and output their optical spectrums. The optical spectrums are filtered via the optical filter then reflected into the FP-LDs. Each of the FP-LDs further outputs its optical spectrum with a form of continuous wave (CW) of single longitudinal mode (SLM). The outputted CWs may be treated as injected laser light sources. They may also be applied to the transmission architecture in wavelength-division-multiplexed passive optical networks. | 12-16-2010 |
Patent application number | Description | Published |
20080217582 | CLASS OF LUMINESCENT IRIDIUM(III) COMPLEXES WITH 2-(DIPHENYLPHOSPHINO)PHENOLATE LIGAND AND ORGANIC ELECTROLUMINESCENT DEVICE THEREOF - A new class of luminescent iridium(III) complexes, luminescent material and organic electroluminescent device thereof had been disclosed. The novel luminescent iridium(III) complexes comprises the formula [(ĈN) | 09-11-2008 |
20090001875 | ORGANIC LIGHT-EMITTING DEVICE INCORPORATING MULTIFUNCTIONAL OSMIUM COMPLEXES - Fabrication of organic light-emitting devices is disclosed by employing the efficient, multifunctional orange-red emitting osmium complex in combination with a second phosphorescent complex showing strong emission at the shorter wavelength region such as blue or blue-green emitting iridium (Ir) complex. The present invention provides WOLEDs with forward viewing efficiencies up to (17% photon/electron, 35.6 cd/A, 28 lm/W) and total peak external efficiencies up to (28.8%, 47.5 lm/W), giving the conceptual design for the highly efficient and color-stable phosphorescent WOLEDs. | 01-01-2009 |
20090058281 | Phosphorescent Osmium (II) complexes and uses thereof - There is disclosed herein phosphorescent compounds, uses thereof, and devices including organic light emitting diode (OLEDs) including such compounds. | 03-05-2009 |
20090171087 | Platinum complex and organic light-emitting device using the same - The present invention relates to a platinum complex as the following formula (I): | 07-02-2009 |
20090209756 | Emissive transition-metal complexes with both carbon-phosphorus ancillary and chromophoric chelates, synthetic method of preparing the same and phosphorescent organic light emitting diode thereof - The present invention discloses a phosphorescent tris-chelated transition metal complex comprising i) two identical carbon-nitrogen (ĈN) or nitrogen-nitrogen (N̂N) chromophoric ligands being incorporated into a coordination sphere thereof with a transition metal, and one carbon-phosphorus (ĈP) chelate being incorporated into the coordination sphere; or ii) one carbon-nitrogen (ĈN) or nitrogen-nitrogen (N̂N) chromophoric ligand forming a coordination sphere thereof with a transition metal, and two identical carbon-phosphorus (ĈP) chelates being incorporated into the coordination sphere, wherein the metal is iridium, platinum, osmium or ruthenium, and the chromophoric ligands possess a relatively lower energy gap in comparison with that of the non-chromophoric chelate, the latter afforded an effective barrier for inhibiting the ligand-to-ligand charge transfer process, so that bright phosphorescence can be observed. The architecture and energy gap of the present molecular designs are suitable for generation of high efficiency blue, green and even red emissions. | 08-20-2009 |
20100258175 | PANCHROMATIC PHOTOSENSITIZERS AND DYE-SENSITIZED SOLAR CELL USING THE SAME - Panchromatic photosensitizers having a Formula of ML | 10-14-2010 |
20110204770 | Phosphorescent transition metal complex having a facially arranged carbon-phosphorus-carbon (C+e,cir +0 +ee P+e,cir +0 +ee C) tridentate chelate and organic light emitting diode containing the same - The present invention provides a series of phosphorescent transition metal complexes having a facially arranged, carbon-phosphorus-carbon (ĈP̂C) tridentate chelate, alone with one monoanionic bidentate chromophoric chelate (either ĈN or ÂN) and one arbitrary charge neutral chelate (L), or with one charge neutral bidentate chromophoric chelate (N̂N) and one arbitrary anionic ligand (X); all of them can be used to generate high efficiency photo-induced phosphorescence at room temperature, as well as bright electroluminescence upon employment of these materials in the fabrication of organic light-emitting devices. | 08-25-2011 |
20110277841 | THIOCYANATE-FREE RU(II) SENSITIZERS AND DYE-SENSITIZED SOLAR CELLS - Photosensitizers having a formula of RuL | 11-17-2011 |
20110313161 | PHOSPHORESCENT IRIDIUM COMPLEX WITH NON-CONJUGATED CYCLOMETALATED LIGANDS, SYNTHETIC METHOD OF PREPARING THE SAME AND PHOSPHORESCENT ORGANIC LIGHT EMITTING DIODE THEREOF - The present invention discloses a phosphorescent tris-chelated transition metal complex comprising i) two identical non-conjugated cyclometalated ligands being incorporated into a coordination sphere thereof with a transition metal, and one ligated chromophore being incorporated into the coordination sphere; or ii) one non-conjugated cyclometalated ligand forming a coordination sphere thereof with a transition metal, and two ligated chromophores being incorporated into the coordination sphere, wherein the metal is iridium, platinum, osmium or ruthenium, and the ligated chromophore possesses a relatively lower energy gap in comparison with that of the non-conjugated cyclometalated ligand, the latter afforded an effective barrier for inhibiting the ligand-to-ligand charge transfer process, so that a subsequent radiative decay from an excited state of these transition complexes will be confined to the single ligated chromophore. The architecture and energy gap of the ligated chromophore are suitable for generation of high efficiency blue, green and even red emissions. | 12-22-2011 |
20110313162 | PHOSPHORESCENT IRIDIUM COMPLEX WITH NON-CONJUGATED CYCLOMETALATED LIGANDS, SYNTHETIC METHOD OF PREPARING THE SAME AND PHOSPHORESCENT ORGANIC LIGHT EMITTING DIODE THEREOF - The present invention discloses a phosphorescent tris-chelated transition metal complex comprising i) two identical non-conjugated cyclometalated ligands being incorporated into a coordination sphere thereof with a transition metal, and one ligated chromophore being incorporated into the coordination sphere; or ii) one non-conjugated cyclometalated ligand forming a coordination sphere thereof with a transition metal, and two ligated chromophores being incorporated into the coordination sphere, wherein the metal is iridium, platinum, osmium or ruthenium, and the ligated chromophore possesses a relatively lower energy gap in comparison with that of the non-conjugated cyclometalated ligand, the latter afforded an effective barrier for inhibiting the ligand-to-ligand charge transfer process, so that a subsequent radiative decay from an excited state of these transition complexes will be confined to the single ligated chromophore. The architecture and energy gap of the ligated chromophore are suitable for generation of high efficiency blue, green and even red emissions. | 12-22-2011 |
20120073660 | HETEROLEPTIC, DUAL TRIDENTATE RU(II) COMPLEXES AS SENSITIZERS FOR DYE-SENSITIZED SOLAR CELLS - Photosensitizers having a formula of RuL | 03-29-2012 |
20120111410 | PANCHROMATIC PHOTOSENSITIZERS AND DYE-SENSITIZED SOLAR CELL USING THE SAME - Panchromatic photo sensitizers having a Formula of ML | 05-10-2012 |
20120247561 | 4,4'-DICARBOXY-2,2'-BIPYRIDINE DERIVED TRIDENTATE LIGAND, METAL COMPLEX CONTAINING THE SAME, AND APPLICATION THEREOF - Disclosed is a 4,4′-dicarboxy-2,2′-bipyridine derived tridentate ligand represented by formula (I): | 10-04-2012 |
20130005975 | EMISSIVE TRANSITION-METAL COMPLEXES WITH BOTH CARBON-PHOSPHORUS ANCILLARY AND CHROMOPHORIC CHELATES, SYNTHETIC METHOD OF PREPARING THE SAME AND PHOSPHORESCENT ORGANIC LIGHT EMITTING DIODE THEREOF - The present invention provides a phosphorescent tris-chelated transition metal complex having one carbon-nitrogen (ĈN) or nitrogen-nitrogen (N̂N) chromophoric ligand forming a coordination sphere thereof with a transition metal, and two identical carbon-phosphorus (ĈP) chelates being incorporated into the coordination sphere, wherein the metal is iridium, platinum, osmium or ruthenium, and the chromophoric ligands possess a relatively lower energy gap in comparison with that of the non-chromophoric chelate, the latter afforded an effective barrier for inhibiting the ligand-to-ligand charge transfer process, so that bright phosphorescence can be observed. The architecture and energy gap of the present molecular designs are suitable for generation of high efficiency blue, green and even red emissions. | 01-03-2013 |