Patent application number | Description | Published |
20090208648 | ARTICLE HAVING NANO-SCALED STRUCTURES AND A PROCESS FOR MAKING SUCH ARTICLE - A process for producing an article having modified optical, chemical, and/or physical properties is disclosed. The process includes (a) fluidizing a starting material; (b) forcing the fluidized starting material toward the article; and (c) passing the fluidized starting material through a high energy zone. The passing step can occur before the forcing step; after the forcing step but before the fluidizing material comes in contact with the surface of the article; and/or after the forcing step and after the fluidized material comes in contact with the surface of the article. The properties of the article are modified because the article has nano-scaled structures distributed on the surface of the article and/or at least partially embedded in the article. | 08-20-2009 |
20100124642 | UNDERCOATING LAYERS PROVIDING IMPROVED CONDUCTIVE TOPCOAT FUNCTIONALITY - A coated article includes a substrate and a first coating formed over at least a portion of the substrate. The first coating includes a mixture of oxides including oxides of at least two of P, Si, Ti, Al and Zr. A conductive functional coating is formed over at least a portion of the first coating. In one embodiment, the functional coating includes fluorine doped tin oxide. | 05-20-2010 |
20100124643 | UNDERCOATING LAYERS PROVIDING IMPROVED PHOTOACTIVE TOPCOAT FUNCTIONALITY - A coated article includes a substrate and a first coating formed over at least a portion of the substrate. The first coating includes a mixture of oxides including oxides of at least two of P, Si, Ti, Al and Zr. A photoactive functional coating is formed over at least a portion of the first coating. In one embodiment, the functional coating includes titania. | 05-20-2010 |
20100285290 | UNDERCOATING LAYERS PROVIDING IMPROVED TOPCOAT FUNCTIONALITY - A coated article includes a substrate and a first coating formed over at least a portion of the substrate. The first coating includes a mixture of oxides including oxides of at least two of P, Si, Ti, Al and Zr. A functional coating is formed over at least a portion of the first coating. In one embodiment, the functional coating includes fluorine doped tin oxide. In another embodiment, the functional coating includes titania. | 11-11-2010 |
20110146767 | SILICON THIN FILM SOLAR CELL HAVING IMPROVED HAZE AND METHODS OF MAKING THE SAME - A method of increasing the haze of a coating stack having a top layer and an undercoating layer using a chemical vapor deposition coating process includes at least one of: increasing a precursor flow rate; decreasing a carrier gas flow rate; increasing a substrate temperature; increasing a water flow rate; decreasing an exhaust flow rate; and increasing a thickness of at least one of the top layer or undercoating layer. | 06-23-2011 |
20110146768 | SILICON THIN FILM SOLAR CELL HAVING IMPROVED UNDERLAYER COATING - A silicon thin film solar cell includes a substrate and an undercoating formed over at least a portion of the substrate. The undercoating includes first layer having tin oxide or titania and a second layer having a mixture of oxides of at least two of Sn, P, Si, Ti, Al and Zr. A conductive coating is formed over at least a portion of the first coating, wherein the conductive coating includes oxides of one or more of Zn, Fe, Mn, Al, Ce, Sn, Sb, Hf, Zr, Ni, Zn, Bi, Ti, Co, Cr, Si or In or an alloy of two or more of these materials. | 06-23-2011 |
20110154860 | Methods Of Making Colored Glass By Surface Modification - A method of making colored glass in a float glass process includes the steps of: melting glass batch materials in a furnace to form a glass melt; transporting the glass melt into a float glass chamber having a flame spray device, the glass melt forming a float glass ribbon; supplying at least one coating material to the flame spray device to form a spray having coating particles; and directing the spray onto the float glass ribbon to diffuse the particles into the surface of the float glass ribbon to form a glass sheet of a desired color. | 06-30-2011 |
20110155685 | REFLECTIVE COATINGS FOR GLASS ARTICLES, METHODS OF DEPOSITION, AND ARTICLES MADE THEREBY - The present invention is directed toward a coating apparatus of the invention comprising at least one coating chamber having at least one makeup air conduit in flow communication with the coating chambers via a makeup air pathway connecting the makeup air conduit to the coating chamber. At least one coating member is positioned in the coating chamber. The coating member is in flow communication with a source of coating material including a titanium-containing coating material. At least one exhaust member is in flow communication with the coating chamber via an exhaust pathway for removing excess coating and air from the coating chamber. | 06-30-2011 |
20110262757 | METHOD OF DEPOSITING NIOBIUM DOPED TITANIA FILM ON A SUBSTRATE AND THE COATED SUBSTRATE MADE THEREBY - A coated article includes a pyrolytic applied transparent electrically conductive oxide film of niobium doped titanium oxide. The article can be made by using a coating mixture having a niobium precursor and a titanium precursor. The coating mixture is directed toward a heated substrate to decompose the coating mixture and to deposit a transparent electrically conductive niobium doped titanium oxide film on the surface of the heated substrate. In one embodiment of the invention, the method is practiced using a vaporized coating mixture including a vaporized niobium precursor; a vaporized titanium precursor, and a carrier gas to deposit a niobium doped titanium oxide film having a sheet resistance greater than 1.2 and an index of refraction of 2.3 or greater. The chemical formula for the niobium doped titanium oxide is Nb:TiO | 10-27-2011 |
20120114846 | COATED SUBSTRATES HAVING UNDERCOATING LAYERS THAT EXHIBIT IMPROVED PHOTOCATALYTIC ACTIVITY - A coated substrate is disclosed. The coated substrate includes a substrate; an undercoating layer comprising at least one layer selected from a mixture of silica and zirconia; a mixture of silica and alumina; or a mixture of silica, alumina and titania overlaying at least a portion of the substrate; and a functional coating overlaying at least a portion of the undercoating. The coated substrates of the invention exhibit improved properties such as increased durability, photocatalytic activity, etc. as a result of the undercoating layer. | 05-10-2012 |
20120172209 | UNDERCOATING LAYERS PROVIDING IMPROVED PHOTOACTIVE TOPCOAT FUNCTIONALITY - A coated article includes a substrate and a first coating formed over at least a portion of the substrate. The first coating includes a mixture of oxides including oxides of at least two of P, Si, Ti, Al and Zr. A photoactive functional coating is formed over at least a portion of the first coating. In one embodiment, the functional coating includes titanic. | 07-05-2012 |
20120200929 | LIGHT EXTRACTING SUBSTRATE FOR ORGANIC LIGHT EMITTING DIODE - A light extraction substrate includes a glass substrate having a first surface and a second surface. A first light extraction region can be defined on and/or adjacent the first surface. The first light extraction region includes nanoparticles. A second light extraction region can be defined on at least a part of the second surface. The second light extraction region has a surface roughness of at least 10 nm. | 08-09-2012 |
20120231279 | PROCESS FOR MAKING POLYMERS HAVING NANOSTRUCTURES INCORPORATED INTO THE MATRIX OF THE POLYMER - The present invention is directed toward a method for making a polymer that has nanostructures incorporated into the matrix of the polymer. The method of the present invention involves mixing a precursor solution for the polymer with a precursor for the nanostructures to form a mixture. Nanostructures are formed in the mixture from the precursor of the nanostructures, such that the nanostructures are surrounded by the precursor solution for the polymer. The polymer is formed from the precursor solution of the polymer, which results in the nanostructures being incorporated into the matrix of the polymer. | 09-13-2012 |
20120237777 | PROCESS FOR FORMING AN ANTI-FOULING COATING SYSTEM - Provided is a process for forming a durable anti-fouling coating on a substrate including:
| 09-20-2012 |
20120275018 | COATED GLASSES HAVING A LOW SOLAR FACTOR - A glass transparency for an automotive roof window includes a solar control coating on a surface of a glass substrate to provide the coated glass with a solar factor in the range of equal to or less 30%, and an Lta in the range of greater than 0% to less than 50%. The solar factor is determined in accordance with ISO 13837 (2008). In another embodiment of the invention, the transparency is a laminated transparency having the solar control coating between two glass sheets. | 11-01-2012 |
20130316140 | Silicon Thin Film Solar Cell Having Improved Underlayer Coating - A silicon thin film solar cell includes a substrate and an undercoating formed over the substrate. The undercoating includes first layer of tin oxide or titania and a second layer having a mixture of oxides of at least two of Sn, P, Si, Ti, Al, and Zr. A conductive coating is over the first coating. The conductive coating includes oxides of one or more of Zn, Fe, Mn, Al, Ce, Sn, Sb, Hf, Zr, Ni, Zn, Bi, Ti, Co, Cr, Si, or In or an alloy of two or more of these materials. A coated article has a substrate and an anti-iridescent layer formed over the substrate. The anti-iridescent layer has a metal oxide film and a homogeneous mixed oxide film. A functional film is over the anti-iridescent layer. | 11-28-2013 |
20130333752 | Photovoltaic Solar Cell With High-Haze Substrate - A solar cell includes a first substrate having a first surface and a second surface. A haze coating is provided over at least a portion of the first surface, the haze coating comprising an oxide coating incorporating nanoparticles. A first conductive layer is provided over at least a portion of the second surface. A semiconductor layer is provided over the first conductive layer. A second conductive layer is provided over at least a portion of the semiconductor layer. | 12-19-2013 |
20140037988 | METHOD OF DEPOSITING NIOBIUM DOPED TITANIA FILM ON A SUBSTRATE AND THE COATED SUBSTRATE MADE THEREBY - A coated article includes an applied transparent electrically conductive oxide film of niobium doped titanium oxide. The article can be made by using a coating mixture having a niobium precursor and a titanium precursor. The coating mixture is directed toward a heated substrate to decompose the coating mixture and to deposit a transparent electrically conductive niobium doped titanium oxide film on the surface of the heated substrate. In another coating process, the mixed precursors are moved toward the substrate positioned in a plasma area between spaced electrodes to coat the surface of the substrate. Optionally, the substrate can be heated or maintained at room temperature. The deposited niobium doped titanium oxide film has a sheet resistance greater than 1.2 ohms/square and an index of refraction of 1.00 or greater. The chemical formula for the niobium doped titanium oxide is Nb:TiO | 02-06-2014 |
20140261663 | High Haze Underlayer For Solar Cell - A solar cell has a substrate and an undercoating formed over at least a portion of the substrate. The undercoating includes a continuous first layer of tin oxide and a second layer having oxides of Sn, P, and Si. A transparent conductive coating is formed over at least a portion of the undercoating. The second layer includes protrusions on an upper surface that cause uneven crystal growth of the conductive coating. | 09-18-2014 |
20140264416 | Organic Light Emitting Diode With Light Extracting Layer - A light extraction substrate includes a glass substrate having a first surface and a second surface. A light extraction layer is formed on at least one of the surfaces. The light extraction layer is a coating, such as a silicon-containing coating, incorporating nanoparticles. | 09-18-2014 |