Patent application number | Description | Published |
20100129624 | MULTI-LAYER FILM STRUCTURE WITH MEDIUM LAYER - An exemplary multi-layer film structure includes a substrate, an inmost layer clinging to the substrate, a medium layer, and a reflective-transmissive layer. The medium layer is formed on the clinging layer. The reflective-transmissive layer is formed on the medium layer. The reflective-transmissive layer is capable of reflecting a portion of incident light to be a first reflected light and allowing another portion of the incident light to transmit therethrough. The substrate is capable of reflecting the transmitted light to be a second reflected light. The medium layer is configured for controlling a light path difference between the first reflected light and the second reflected light thereby allowing the second reflected light to interfere with the first reflected light and provide the multi-layer film structure with a desired color appearance. | 05-27-2010 |
20100151271 | MULTILAYER SUBSTRATE - A multilayer substrate includes a base layer, a coating layer and an intermediate layer positioned between the base layer and the coating layer. The intermediate layer contains chromium and nitrogen. A content of the chromium in the intermediate layer gradually decreases from the base layer to the coating layer. | 06-17-2010 |
20100261010 | MULTI-LAYER FILM AND ELECTRONIC DEVICE SHELL HAVING SAME - An exemplary multi-layer film includes a light absorbing layer, a number of metallic layers formed on the light absorbing layer, and a number of transparent medium layers each sandwiched between two respective adjacent of the metallic layers. Each of the metallic layers is configured for reflecting part of light incident thereon to be a reflected light and transmitting another part of the incident light therethrough. The light absorbing layer is capable of absorbing light incident thereon. The medium layers are configured for controlling light path differences between the reflected lights thereby allowing the reflected lights to interfere with each other and provide the multi-layer film with a desired color appearance. | 10-14-2010 |
20100271760 | MULTI-LAYER FILM AND ELECTRONIC DEVICE SHELL WITH SAME - An exemplary multi-layer film includes a top layer, a bottom layer and medium layer. The top layer is configured for reflecting part of incident light to be a first reflected light and allowing another part of the incident light to transmit therethrough. The bottom layer is capable of clinging to the substrate, and is configured for reflecting the transmitted light to be a second reflected light. The medium layer is sandwiched between the top layer and the bottom layer, and is configured for controlling a light path difference between the first reflected light and the second reflected light, such that the first and second reflected lights interfere with each other and provide the multi-layer film with a desired color appearance. | 10-28-2010 |
20110024408 | DEFOGGING DEVICE WITH CARBON NANOTUBE FILM - A defogging device for reducing fog on a surface of a substrate, which comprises a power unit and a heating element. The heating element is attached to the substrate, which comprises at least one carbon nanotube film comprising carbon nanotubes arranged substantially parallel to each other. The heating element transforms electricity into heat to vaporize fog of the first surface of the substrate when the heating element is connected to the power unit. | 02-03-2011 |
20110031108 | SPUTTERING DEPOSITION METHOD AND APPARATUS - A sputtering deposition method is utilized by a sputtering deposition apparatus including a first chamber, a second chamber, a first carrier, and a second carrier. Some first substrates are positioned in the first carriers in the first chamber for heating. The first carriers in the first chamber and the second carriers in the second chamber are exchanged. The first substrates in the second chamber are sputtered. The second carriers in the first chamber and the first carriers in the second chamber are exchanged. The first substrates in the first chamber are taken out. | 02-10-2011 |
20110122363 | ANTI-GLARE OPTICAL ELEMENT AND OPTICAL DEVICE USING THE SAME - An optical element includes a base and an anti-glare layer. The base has a surface. The anti-glare layer is positioned on the surface and includes carbon nanotubes. The carbon nanotubes are arranged substantially parallel to each other and configured to absorb an S-polarized light that irradiates the surface. | 05-26-2011 |
20110174607 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value for L* in a range from about 70.44 to about 72.44, a value for a* in a range from about −7.84 to about −6.84 and a value for b* in a range from about −8.57 to about −7.57 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174661 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and the color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 40.34 to about 42.34, a value of a* in a range from about 0.11 to about 1.11 and a value of b* in a range from about 2.24 to about 3.24 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174662 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 17.93 to about 19.93, a value of a* in a range from about 23.74 to about 24.74 and a value of b* in a range from about 2.20 to about 3.20 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174663 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and the color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 57.57 to about 59.57, a value of a* in a range from about 1.04 to about 2.04 and a value of b* in a range from about 6.64 to about 7.64 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174664 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and the color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 81.59 to about 83.59, a value of a* in a range from about −0.55 to about 0.45 and a value of b* in a range from about −0.60 to about 0.40 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174666 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region, and the color layer is located over the smooth region of the base. The color layer includes titanium, and has a value for L* in the range from 51.55 to 52.55, a value for a* in the range from 13.12 to 14.12 and a value for b* in the range from 6.27 to 7.27 according to the Commission Internationale del'Eclairage, (CIE, International Commission on Illumination) LAB system. The bonding layer is located between the substrate and the color layer, providing adhesion therebetween. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174667 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 32.51 to about 34.51, a value of a* in a range from about −8.74 to about −7.74 and a value of b* in a range from about −12.39 to about −11.39 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174668 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 50.77 to about 52.77, a value of a* in a range from about −0.93 to about 0.07 and a value of b* in a range from about −1.26 to about −0.26 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174669 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 59.12 to about 61.12, a value of a* in a range from about 0.17 to about 1.17 and a value of b* in a range from about 2.40 to about 3.40 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174670 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 81.43 to about 83.43, a value of a* in a range from about 0.30 to about 1.30 and a value of b* in a range from about 2.11 to about 3.11 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174671 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 36.54 to about 38.54, a value of a* in a range from about 0.04 to about 1.04 and a value of b* in a range from about 1.88 to about 2.88 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174672 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 49.07 to about 51.07, a value of a* in a range from about 0.19 to about 1.19 and a value of b* in a range from about 1.94 to about 2.94 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174673 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 81.76 to about 83.76, a value of a* in a range from about −0.63 to about 0.37 and a value of b* in a range from about −1.04 to about −0.04 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110174674 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 51.00 to about 53.00, a value of a* in a range from about −1.04 to about −0.04 and a value of b* in a range from about 1.88 to about 2.88 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110175500 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. A portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 75.26 to about 77.26, a value of a* in a range from about 0.42 to about 1.42 and a value of b* in a range from about 9.36 to about 10.36 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110177351 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes at least one metal layer. Portion of the color layer corresponding to and located over the smooth region has a value for L* in a range from about 18.14 to about 19.14, a value for a* in a range from about 13.39 to about 14.39 and a value for b* in a range from about −32.46 to about −31.46 according to the Commission Internationale del'Eclairage LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110177357 | COLORED DEVICE CASING AND SURFACE-TREATING METHOD FOR FABRICATING SAME - A colored device casing includes a base, a color layer and a bonding layer. The base has at least one smooth region. The bonding layer is positioned between the base and the color layer and bonds the base and color layer together. The color layer includes titanium. Portion of the color layer corresponding to and located over the smooth region has a value of L* in a range from about 39.68 to about 41.68, a value of a* in a range from about 4.80 to about 5.80 and a value of b* in a range from about 6.88 to about 7.88 according to the Commission Internationale del'Eclairage, (CIE, International Commission on Illumination) LAB system. A surface-treating method for fabricating the colored casing is also provided. | 07-21-2011 |
20110247854 | MULTI-FILM STRUCTURE AND METHOD FOR MAKING SAME, AND ELECTRONIC DEVICE HAVING SAME - A multi-film structure includes a substrate having a surface, a chromium nitride film formed on the surface of the substrate, and a color layer deposited on the chromium nitride film. The color layer includes an aluminum oxide film doped with chromium atoms. A weight percent of the chromium in the color layer is less than that of the aluminum in the color layer. | 10-13-2011 |
20110279781 | PROJECTION SCREEN, PROJECTION SYSTEM AND METHOD FOR MAKING THE PROJECTION SCREEN - A projection system, projection screen, and method for making the screen are provided. The projection screen includes a flexible transparent substrate having a first surface and an opposite second surface; and a reflective film formed on the second surface of the substrate. The reflective film reflects red, green and blue light, such as from a projector, making it viewable on the screen, and substantially absorbs ambient light other than the above specified light wavelengths, resulting in relatively higher contrast. | 11-17-2011 |
20120141828 | FILM STRUCTURE AND PORTABLE ELECTRONIC DEVICE EMPLOYING SAME - A film structure includes a metal substrate, a metal film formed on the metal substrate, an insulating transparent optical film formed on the metal film. The metal film eliminates an interference color of the optical film so that the color of the film structure is substantially the same as the metal substrate. | 06-07-2012 |
20120145220 | DICHROIC MIRROR HAVING TRANSPARENT BONDING LAYER AND SUNLIGHT COLLECTING DEVICE HAVING SAME - A dichroic mirror includes a first transparent substrate. In addition, the dichroic mirror includes a first multilayer dielectric, a transparent bonding layer, a second multilayer dielectric and a second transparent substrate stacked on the first transparent substrate in that order. The second transparent substrate includes a parabolic incident surface for receiving sunlight. The dichroic mirror is configured for separating the sunlight into two light beams having different wavelength regions. The second multilayer dielectric is configured for reflecting one of the two light beams and allowing another light beam to pass through. | 06-14-2012 |
20130222894 | INFRARED ABSORBING FILTER AND LENS MODULE HAVING SAME - An infrared absorbing filter includes a glass plate molded by melting a composition of raw materials and cooling the melted composition. The composition of raw materials includes 28-33 by percentage weight (wt %) of phosphorus pentoxide (P | 08-29-2013 |
20130286470 | INFRARED-CUT FILTER WITH SAPPHIRE SUBSTRATE AND LENS MODULE - An IR-cut filter includes a substrate and a film. The substrate made of sapphire. The film is covered on the substrate and is configured for increasing reflectivity of infrared lights and filtering the infrared lights. The film includes a plurality of high refractive index layers and a plurality of low refractive index layers alternately stacked on the substrate. The refractive index of the high refractive index layers is greater than about 2.0, and the refractive index of the low refractive index layers is lower than about 1.5. | 10-31-2013 |
20130292584 | OPTICAL ELEMENT FOR TRANSMITTING ULTRAVIOLET LIGHT AND LIGHT SOURCE DEVICE INCLUDING SAME - An optical element includes a substrate and a film on the substrate. The substrate made of sapphire. The film is configured for increasing transmission of ultraviolet lights. The film is stacked by a plurality of high refractive index layers and a plurality of low refractive index layers alternately stacked on the substrate. | 11-07-2013 |
20130293950 | OPTICAL ELEMENT FILTERING ULTRAVIOLET LIGHT AND LENS MODULE INCLUDING SAME - An optical element includes a substrate and a film. The substrate made of sapphire. The film is covered on the substrate and is configured for increasing reflectivity of ultraviolet lights and filtering the ultraviolet lights. The film includes a plurality of high refractive index layers and a plurality of low refractive index layers alternately stacked on the substrate. | 11-07-2013 |