Patent application number | Description | Published |
20090278267 | METHOD FOR MANUFACTURING LIGHT GUIDE PLATES - A method for manufacturing a light guide plate, includes: providing a first mold having a first contact surface, a second mold, and a reflector having a reflecting surface, the first mold defining a cavity from the first contact surface toward an inner portion thereof and having a gate communicated with the cavity; sandwiching the reflector between the first and second molds with the reflecting surface tightly contacting with the contact surface to enclose the cavity; injecting molten transparent resin into the cavity through the gate to fill the cavity up with the molten transparent resin, thereby forming a light guide plate body on the reflecting surface of the reflector; cooling the light guide plate body to solidify the light guide plate body in the cavity; and separating the first and second molds. | 11-12-2009 |
20090290865 | ZINC OXIDE NANO-WIRE BASED ACTUATOR, LENS MODULE USING SAME AND CAMERA MODULE USING SAME - An exemplary zinc oxide nano-wire based actuator includes a first electrode, a second electrode opposite to the first electrode, and a zinc oxide nano-wire layer sandwiched between the first electrode and the second electrode. The zinc oxide nano-wire layer includes two opposite surfaces in contact with the first and the second electrodes respectively, and a plurality of zinc oxide nano-wires substantially parallel to each other. The first electrode and the second electrode are configured for cooperatively creating therebetween an electric field with an electric field direction substantially parallel to the zinc oxide nano-wires so as to adjust a thickness of the zinc oxide nano-wire layer, thereby moving the second electrode relative to the first electrode. | 11-26-2009 |
20090325024 | PROTON EXCHANGE MEMBRANE FUEL CELL - An exemplary proton exchange membrane fuel cell includes a light-pervious first end plate, a second end plate, a light-pervious first bipolar plate, a second bipolar plate, and a membrane electrode assembly. The light-pervious first bipolar plate is arranged adjacent to the first end plate and capable of transmitting light having a given wavelength therethrough. The second bipolar plate is capable of having oxidant fed therein. The membrane electrode assembly includes a proton exchange membrane, and an anode and a cathode arranged at opposite sides of the proton exchange membrane. The anode is capable of having fuel fed therein, and includes a first catalyst layer containing photo-catalyst and noble metal such that the light is capable of activating the first catalyst layer to dissociate the fuel thereon. | 12-31-2009 |
20100044569 | INFRARED DETECTOR WITH CARBON NANOTUBE YARNS - An infrared detector based on CNT yarns includes a first electrode, a second electrode and a composite film between the first electrode and the second electrode. A first end of the composite film is electrically connected to the first electrode. A second end of the composite film and the second electrode cooperatively define a gap therebetween. The composite film is capable of extending in a direction towards the second electrode and, thereby forming an electrical connection between the first and the second electrodes when the composite film is illuminated by infrared light. The composite film includes a polymer layer, a plurality of semiconducting CNT yarns dispersed in the polymer layer, and a plurality of metallic CNT yarns dispersed in the polymer layer. Each semiconducting CNT yarn includes a plurality of twisted semiconducting CNTs. Each metallic CNT yarn includes a plurality of twisted metallic CNTs. | 02-25-2010 |
20100047514 | ACTUATOR WITH CARBON NANOTUBE YARNS - An exemplary actuator based on CNT yarns includes a base and a composite film mounted on a surface of the base. The composite film is extendable in a predetermined direction substantially perpendicular to the surface of the base in response to light irradiation applied thereupon. The composite film includes a polymer layer, a plurality of semiconducting CNT yarns dispersed in the polymer layer, and a plurality of metallic CNT yarns dispersed in the polymer layer. A longitudinal of each semiconducting CNT yarn is substantially parallel with the direction. Each semiconducting CNT yarn includes a plurality of twisted semiconducting CNTs. A longitudinal of each metallic CNT yarn is substantially parallel with the direction. Each metallic CNT yarn includes a plurality of twisted metallic CNTs. | 02-25-2010 |
20100059367 | SPUTTER-COATING APPARATUS - A sputter-coating apparatus is configured for coating a substrate with a target material, and includes an upper housing defining an opening, a lower housing, an infrared heating unit, and a shielding member. The lower housing and the upper housing cooperatively defines an airtight chamber. The substrate and the target material are positioned in the lower housing. The infrared heating unit is fixed to the upper housing and configured for heating the substrate. The shielding member is fixed to the upper housing to seal the opening and is transparent to infrared rays generated by the infrared heating unit. | 03-11-2010 |
20100086791 | Optical film and coating method thereof - An exemplary optical film includes a transparent substrate having a surface, and an optical film coated on the surface of the transparent substrate. The optical film includes pure metal ions and reaction compounds mixed with the pure ions. The proportion of the ions to the reaction compounds in the optical film gradually changes along a direction from the surface of the transparent substrate to a surface of the optical film farthest from the surface of the transparent substrate. An exemplary method to form such an optical film is also provided. | 04-08-2010 |
20100271705 | LIGHT BLOCKING PLATE ARRAY, AND LENS MODULE ARRAY WITH SAME - An exemplary light blocking plate array includes a light transmissive plate, and a light blocking layer formed on the light transmissive plate. The light transmissive plate includes many light transmissive areas spaced apart from each other, and a peripheral area surrounding the light transmissive areas. Each of the transmissive areas is a solid structure. The light blocking layer is formed on the peripheral area. | 10-28-2010 |
20100295230 | TRAY DEVICE FOR USE WITH LENS HOLDER - An tray device for a lens holder during the process of vacuum coating, the lens holder comprising a base and a lens barrel, the base comprising a recessed portion and the lens barrel comprising an opening communicating with the recessed portion, the tray device comprises a main body defining a through hole and at least one hollow space extending through the main body. The main body is configured for supporting the base of the lens holder. The through hole is aligned with opening of the lens holder, wherein the at least one hollow space communicates with the recessed portion of the base of the lens holder. | 11-25-2010 |
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 |
20110039059 | MOLDING ARTICLE WITH EMI SHIELDING FILM AND METHOD FOR MAKING SAME - A molding article includes a base and an EMI shielding film adhered to the base. The base includes a thermoplastic material and is made by injection molding. The EMI shielding film includes carbon nanotubes. | 02-17-2011 |
20110075014 | ELECTROMAGNETIC SHIELDING COATING AND LENS MODULE UTILIZING THE SAME - An electromagnetic shielding coating covers a lens coated with an optical coating. A light shielding coating covers the optical coating. The electromagnetic shielding coating covers the light shielding coating. The electromagnetic shielding coating includes a first stainless steel layer and a second copper layer. The first stainless steel layer contains stainless steel, and is formed on the light shielding coating directly. The second copper layer is formed on the first metal layer. | 03-31-2011 |
20110168552 | SYSTEM FOR SPUTTERING DEPOSITION - An exemplary system for sputtering deposition includes a sputtering chamber and a gas supplying system. The sputtering chamber includes a first sputtering space and a second sputtering space isolated from the first sputtering space. Each of the first and second sputtering spaces is configured for receiving a target and a substrate therein. The gas supplying system includes a reactive gas source, an inert gas source, a first chamber in communication with the reactive gas source and the inert gas source, and a second chamber in communication with the inert gas source. Both the first and second chambers are in communication with the first and second sputtering spaces through valves. | 07-14-2011 |
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 |
20110278163 | GAS SUPPLY SYSTEM AND SPUTTERING APPARATUS HAVING SAME - An exemplary gas supply system, includes a plurality of first input lines for supplying gas, a plurality of second input lines, a plurality of third input lines, a first mixing tank communicating with the second input lines, a second mixing tank communicating with the third input lines, and a plurality of three-way valves. Each three-way valve is communicated with a first input line, a second input line and a third input line such that gas in the first input lines can be selectively introduced into the first mixing tank or the second mixing tank. | 11-17-2011 |
20120045654 | SILVERY WHITE FILM STRUCTURE, METHOD FOR MAKING THE SAME, AND ELECTRONIC DEVICE HAVING THE SAME - A white film structure includes a combining layer and a color layer. The combining layer is formed on a surface of a substrate and is made of chromium nitride. The color layer is formed on the combining layer and is made of a mixture of alumina and titanium oxide. A weight percent of the aluminum in the color layer is more than that of the titanium in the color layer. | 02-23-2012 |
20120286142 | ELECTROMAGNETIC SHIELDING COATING AND LENS MODULE UTILIZING THE SAME - An electromagnetic shielding coating covers a lens coated with an optical coating. A light shielding coating covers the optical coating. The electromagnetic shielding coating covers the light shielding coating. The electromagnetic shielding coating includes a first metal layer containing stainless steel and covering the light shielding coating directly, a second copper layer formed on the first metal layer, and a third metal layer formed on the second copper layer. The third metal layer includes stainless steel and copper. | 11-15-2012 |
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 |