Patent application number | Description | Published |
20090176057 | Coating structure with an anti-reflection function and an anti-electromagnetic wave function - A coating structure with an anti-reflection function and an anti-electromagnetic wave function, including an anti-reflection coating structure, an anti-electromagnetic wave coating structure, a third transparent substrate, and two adhesive layers respectively disposed between the anti-reflection coating structure and the third transparent substrate and between the third transparent substrate and the anti-electromagnetic wave coating structure. The anti-reflection coating structure has a first transparent substrate and an anti-reflection coating module formed on the first transparent substrate. The anti-electromagnetic wave coating structure has a second transparent substrate and an anti-electromagnetic wave coating module formed on the second transparent substrate. The third transparent substrate is disposed between the anti-reflection coating structure and the anti-electromagnetic wave coating structure. | 07-09-2009 |
20090297877 | Extreme low resistivity light attenuation anti-reflection coating structure in order to increase transmittance of blue light and method for manufacturing the same - An extreme low resistivity light attenuation anti-reflection coating structure in order to increase transmittance of blue light, includes a substrate and a coating module. The coating module is formed on a front surface of the substrate and composed of a plurality of silicon carbide compound coating layers, a plurality of Al-based oxide coating layers and a plurality of metal coating layers that are alternately stacked onto each other. | 12-03-2009 |
20090297878 | Extreme low resistivity light attenuation anti-reflection coating structure in order to increase transmittance of blue light and method for maufacturing the same - An extreme low resistivity light attenuation anti-reflection coating structure in order to increase transmittance of blue light. The coating structure includes a substrate and a coating module. The coating module is formed on a front surface of the substrate and composed of a plurality of mixture coating layers, a plurality of Al-based oxide coating layers and a plurality of metal coating layers that are alternately stacked onto each other. Each mixture coating layer is composed of silicon carbide compound and Ti-based oxide. | 12-03-2009 |
20100233388 | MULTILAYER FILM STRUCTURE FOR INCREASING TRANSMITTANCE AND METHOD FOR MANUFACTURING THE SAME - A multilayer film structure for increasing transmittance includes a transparent substrate and a multifunctional film module. The multifunctional film module is formed on a front surface of the transparent substrate and composed of a plurality of dielectric layers and a plurality of metal layers. The dielectric layers and the metal layers are alternately stacked onto each other, and each metal layer is formed by mixing at least two metals. Each dielectric layer is a silicon carbide compound layer that is SiC, and each metal layer is formed by mixing Ag and Cu. | 09-16-2010 |
20110026125 | Transparent conductive film structure and display device - A transparent conductive film structure includes, a substrate and a multi-layer film formed on the substrate. The multi-layer film includes a reflection-matching layer and a transparent conductive layer. The reflection matching layer is applied to reduce the reflection index difference of the etched portion and the non-etched portion. Therefore, the etched traces cannot be observed by the users so that the image quality of the transparent conductive film structure is improved. | 02-03-2011 |
20110027561 | Optical film structure and display device - An optical film structure includes a substrate and a multi-film structure formed on the substrate. The multi-film structure includes a first refraction-matching layer, a second refraction-matching layer and a third layer. The refraction matching effect of the first and the second refraction-matching layers is produced to lead a phase reversal so as to interfere the incident light and the reflecting light. Therefore, the etched traces cannot be observed by the users so that the image quality of the optical film structure is improved | 02-03-2011 |
Patent application number | Description | Published |
20080226887 | Low resistivity light attenuation anti-reflection coating with a transparent surface conductive layer - A low resistivity light attenuation anti-reflection coating with a transparent surface conductive layer is disclosed. The multi-layered structure of the low resistivity light attenuation anti-reflection coating is HL (HL) | 09-18-2008 |
20080248219 | Anti-reflection coating with low resistivity function and transparent conductive coating as outermost layer - An anti-reflection coating anti-reflection coating with low resistivity function and transparent conductive coating as outermost layer is disclosed. The anti-reflection coating contains a transparent conductive oxide as a surface layer and has a photo reflectance below 0.5%. The resistivity of the anti-reflection coating is between 0.5Ω and 0.7Ω per square, and its transparency is between 55% and 70%. | 10-09-2008 |
20090092772 | Extreme low resistivity light attenuation anti-reflection coating structure and method for manufacturing the same - An extreme low resistivity light attenuation anti-reflection coating structure with a surface protective layer includes a substrate, a coating module, and a composed protection coating layer. The coating module is formed on a front surface of the substrate. The coating module is composed of a plurality of silicon carbide compound coating layers and a plurality of metal coating layers that are alternately stacked with each other. The composed protection coating layer is formed on the coating module. | 04-09-2009 |
20090092808 | Extreme low resistivity light attenuation anti-reflection coating structure and method for manufacturing the same - An extreme low resistivity light attenuation anti-reflection coating with a transparent surface conductive layer includes a substrate, a coating module, and a composed protection coating layer. The coating module is formed on a front surface of the substrate. The coating module is composed of a plurality of mixture coating layers and a plurality of metal coating layers that are alternately stacked with each other. Each mixture coating layer is composed of Ti-based oxide and carbon. The composed protection coating layer is formed on the coating module. | 04-09-2009 |
20090092825 | Extreme low resistivity light attenuation anti-reflection coating structure and method for manufacturing the same - A extreme low resistivity light attenuation anti-reflection coating structure includes a substrate, a coating module, and a composed protection coating layer. The coating module is formed on a front surface of the substrate. The coating module is composed of a plurality of Ti-based oxide coating layers and a plurality of metal coating layers that are alternately stacked with each other. The composed protection coating layer is formed on the coating module. | 04-09-2009 |
20090092850 | Extreme low resistivity light attenuation anti-reflection coating structure and method for manufacturing the same - An extreme low resistivity light attenuation anti-reflection coating with a transparent surface conductive layer includes a substrate, a coating module, and a composed protection coating layer. The coating module is formed on a front surface of the substrate. The coating module is composed of a plurality of mixture coating layers and a plurality of metal coating layers that are alternately stacked with each other. Each mixture coating layer is composed of silicon carbide compound and Ti-based oxide. The composed protection coating layer is formed on the coating module. | 04-09-2009 |
Patent application number | Description | Published |
20150346853 | TOUCH MODULE AND MANUFACTURING METHOD THEREOF - A touch module and a manufacturing method thereof are disclosed. The touch module includes a substrate, at least two first touch electrodes, at least two second touch electrodes, at least one conductive residual material, at least one electrode channel, and at least one bridge. The substrate has a first surface and a second surface. The first surface and the second surface are opposite to each other. The conductive residual material is formed on the second surface of the substrate. All of the first touch electrodes, the second touch electrodes, and the electrode channel are embedded in the substrate. The electrode channel is configured to electrically connect the second touch electrodes to each other. The bridge is disposed on the first surface of the substrate, and configured to electrically connect the first touch electrodes to each other. The first touch electrodes are isolated from the second touch electrodes. | 12-03-2015 |
20150346878 | TOUCH MODULE AND MANUFACTURING METHOD THEREOF - A touch module and a manufacturing method thereof are disclosed. The touch module includes a substrate, at least one bridge, an active layer, at least two first touch electrodes, at least two second touch electrodes, and at least one electrode channel. The bridge is disposed on the substrate. The active layer overlays the bridge and the substrate. The first touch electrodes are embedded in the active layer and electrically touch the bridge, so that the first touch electrodes are electrically connected to each other via the bridge. The electrode channel is embedded in the active layer, and is configured to allow the second touch electrodes to be electrically connected to each other. The first touch electrodes are electrically isolated from the second touch electrodes. | 12-03-2015 |