Patent application number | Description | Published |
20080220160 | Coated article with IR reflecting layer(s) and method of making same - A coated article is provided with at least one infrared (IR) reflecting layer. The IR reflecting layer may be of silver or the like. In certain example embodiments, a titanium oxide layer is provided over the IR reflecting layer, and it has been found that this surprisingly results in an IR reflecting layer with a lower specific resistivity (SR) thereby permitting thermal properties of the coated article to be improved. | 09-11-2008 |
20080226925 | Low-E coated articles and methods of making same - In certain example embodiments, low-E coated articles may be designed so as to realize a combination of good visible transmission (T | 09-18-2008 |
20090068447 | Coated article with low-E coating having absorbing layer designed for desirable bluish color at off-axis viewing angles - An absorbing layer of a low-E coating is designed to cause the coating to have a more bluish color at normal and/or certain off-axis viewing angles. In certain example embodiments, the metallic or substantially metallic absorbing layer (e.g., NiCr) is located in the middle section of the layer stack and has been found to unexpectedly provide desirable bluish glass side reflective color for the coated article at certain off-axis viewing angles (e.g., at a 45 degree off-axis viewing angle). In certain example embodiments, the absorbing layer is provided between first and second nitride inclusive or based layers in order to reduce or prevent oxidation thereof during heat treatment thereby permitting predictable coloration to be achieved following the heat treatment. Coated articles according to certain example embodiments of this invention may be used in the context of insulating glass (IG) window units, vehicle windows, other types of windows, or in any other suitable application. | 03-12-2009 |
20090263596 | Coated article with IR reflecting layer and method of making same - Example embodiments of this invention relate to a coated article including an infrared (IR) reflecting layer of a material such as silver or the like, for use in an insulating glass (IG) window unit for example. In certain example embodiments, the coating is a single-silver type coating, and includes an overcoat including an uppermost layer of or including silicon nitride and a layer of or including tin oxide immediately under and contacting the silicon nitride based overcoat. In certain example embodiments, the thicknesses of the silicon nitride based overcoat and the tin oxide based layer are balanced (e.g., substantially equal, or equal plus/minus about 10%). It has surprisingly been found that such balancing results in an improvement in thermal cycling performance and improved mechanical durability. In certain example embodiments, the coating may realize surprisingly good substantially neutral film side reflective coloration, and may achieve an improved visible transmission, SHGC ratio and low U-values. Moreover, in certain example embodiments, stress in the overcoat of the coating may be reduced by reducing nitrogen gas flow (N | 10-22-2009 |
20090324934 | Coated article with low-E coating having absorbing layer designed to neutralize color at off-axis viewing angles - An absorbing layer of a low-E coating is designed to cause the coating to have a more neutral and/or green color at normal and/or certain off-axis viewing angles. In certain example embodiments, the metallic or substantially metallic absorbing layer (e.g., NiCr) is from about 20-30 angstroms (Å) thick; this thickness has been found to unexpectedly provide less red and more neutral coloration for the coated article at certain off-axis viewing angles (e.g., at a 45 degree off-axis viewing angle). In certain example embodiments, the absorbing layer is provided between first and second nitride layers in order to reduce or prevent oxidation thereof during heat treatment thereby permitting predictable coloration to be achieved following the heat treatment. Coated articles according to certain example embodiments of this invention may be used in the context of insulating glass (IG) window units, vehicle windows, other types of windows, or in any other suitable application. | 12-31-2009 |
20100104840 | Low-E coated articles and methods of making same - In certain example embodiments, low-E coated articles may be designed so as to realize a combination of good visible transmission (T | 04-29-2010 |
20100295330 | Coated article with low-e coating having zinc stannate based layer between IR reflecting layers for reduced mottling and corresponding method - A coated article is provided which may be heat treated (e.g., thermally tempered) and/or heat bent in certain example instances. In certain example embodiments, a zinc stannate based layer is provided between a tin oxide based layer and a silicon nitride based layer, and this has been found to significantly reduce undesirable mottling damage upon heat treatment/bending. This results in significantly improved bendability of the coated article in applications such as vehicle windshields and the like. | 11-25-2010 |
20120067717 | Method of co-sputtering alloys and compounds using a dual C-MAG cathode arrangement and corresponding apparatus - Certain example embodiments of this invention relate to techniques for sputter-depositing a thin film(s) including two or more materials using targets such as rotating cylindrical sputtering targets, including a method and apparatus. Magnet bar assemblies in first and second adjacent sputtering targets are oriented differently. The different orientations of the magnet bar assemblies allows material from the second target to be sputtered onto the first target, or vice versa. The mixture of material on the first target, including sputtering material from both the first and second targets, is then sputtered onto a substrate to form a sputter-deposited thin film that includes a mixture of the sputtering materials from the targets. | 03-22-2012 |
20120070652 | Coated article having zinc oxide seed layer with reduced stress under functional layer and method of making the same - A coated article is provided with at least one functional layer, such as an infrared (IR) reflecting layer of or including silver and/or gold. A dielectric and substantially transparent seed layer is provided under and directly contacting the functional layer. In certain example embodiments, the seed layer includes an oxide of zinc and gallium for lowering the stress of the layer and thus improving durability of the overall coating. | 03-22-2012 |
20120070672 | Coated article having boron doped zinc oxide based seed layer with enhanced durability under functional layer and method of making the same - A coated article is provided with at least one functional layer, such as an infrared (IR) reflecting layer(s) of or including silver and/or gold. A dielectric and substantially transparent seed layer is provided under and directly contacting the functional layer. In certain example embodiments, the seed layer includes an oxide of zinc and boron for increasing the hardness of the layer and thus improving durability of the overall coating. The seed layer may further include aluminum and/or gallium, for enhancing the electrical properties and/or reducing the stress in the resulting coating. The seed layer may be deposited by a substantially metallic target in the presence of oxygen in certain examples. | 03-22-2012 |
20120164420 | ARTICLES INCLUDING ANTICONDENSATION AND/OR LOW-E COATINGS AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to articles including anticondensation and/or low-E coatings that are exposed to an external environment, and/or methods of making the same. In certain example embodiments, the anticondensation and/or low-E coatings may be survivable in an outside environment. The coatings also may have a sufficiently low sheet resistance and hemispherical emissivity such that the glass surface is more likely to retain heat from the interior area, thereby reducing (and sometimes completely eliminating) the presence condensation thereon. The articles of certain example embodiments may be, for example, skylights, vehicle windows or windshields, IG units, VIG units, refrigerator/freezer doors, and/or the like. | 06-28-2012 |
20120219821 | Coated article including low-emissivity coating, insulating glass unit including coated article, and/or methods of making the same - Certain example embodiments relate to a coated article including at least one infrared (IR) reflecting layer of a material such as silver or the like in a low-E coating, and methods of making the same. In certain cases, at least one layer of the coating is of or includes nickel and/or titanium (e.g., Ni | 08-30-2012 |
20120225224 | Barrier layers comprising Ni and/or Ti, coated articles including barrier layers, and methods of making the same - Certain example embodiments relate to a coated article including at least one infrared (IR) reflecting layer of a material such as silver or the like in a low-E coating, and methods of making the same. In certain cases, at least one layer of the coating is of or includes nickel and/or titanium (e.g., Ni | 09-06-2012 |
20120225304 | Barrier layers comprising NI-inclusive alloys and/or other metallic alloys, double barrier layers, coated articles including double barrier layers, and methods of making the same - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 09-06-2012 |
20120225316 | Functional layers comprising Ni-inclusive ternary alloys and methods of making the same - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 09-06-2012 |
20120225317 | Barrier layers comprising Ni-inclusive ternary alloys, coated articles including barrier layers, and methods of making the same - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 09-06-2012 |
20130020827 | COATED ARTICLE WITH LOW-E COATING HAVING ZINC STANNATE BASED LAYER BETWEEN IR REFLECTING LAYERS FOR REDUCED MOTTLING AND CORRESPONDING METHODS - A coated article is provided which may be heat treated (e.g., thermally tempered) and/or heat bent in certain example instances. In certain example embodiments, a zinc stannate based layer is provided between a tin oxide based layer and a silicon nitride based layer, and this has been found to significantly reduce undesirable mottling damage upon heat treatment/bending. This results in significantly improved bendability of the coated article in applications such as vehicle windshields and the like. | 01-24-2013 |
20130108862 | Low-E Panel with Improved Layer Texturing and Method for Forming the Same | 05-02-2013 |
20130117992 | BARRIER LAYERS COMPRISING NI-INCLUSIVE ALLOYS AND/OR OTHER METALLIC ALLOYS, DOUBLE BARRIER LAYERS, COATED ARTICLES INCLUDING DOUBLE BARRIER LAYERS, AND METHODS OF MAKING THE SAME - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 05-16-2013 |
20130118673 | COATED ARTICLE INCLUDING LOW-EMISSIVITY COATING INSULATING GLASS UNIT INCLUDING COATED ARTICLE, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to a coated article including at least one infrared (IR) reflecting layer of a material such as silver or the like in a low-E coating, and methods of making the same. In certain cases, at least one layer of the coating is of or includes nickel and/or titanium (e.g., Ni | 05-16-2013 |
20130118674 | FUNCTIONAL LAYERS COMPRISING NI-INCLUSIVE TERNARY ALLOYS AND METHODS OF MAKING THE SAME - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 05-16-2013 |
20130136932 | Heat Stable SnAl and SnMg Based Dielectrics - A transparent dielectric composition comprising tin, oxygen and one of aluminum or magnesium with preferably higher than 15% by weight of aluminum or magnesium offers improved thermal stability over tin oxide with respect to appearance and optical properties under high temperature processes. For example, upon a heat treatment at temperatures higher than 500 C, changes in color and index of refraction of the present transparent dielectric composition are noticeably less than those of tin oxide films of comparable thickness. The transparent dielectric composition can be used in high transmittance, low emissivity coated panels, providing thermal stability so that there are no significant changes in the coating optical and structural properties, such as visible transmission, IR reflectance, microscopic morphological properties, color appearance, and haze characteristics, of the as-coated and heated treated products. | 05-30-2013 |
20130164560 | Low-E Panel With Improved Dielectric Layer And Method For Forming The Same - Embodiments provided herein describe a low-e panel and a method for forming a low-e panel. A transparent substrate is provided. A metal oxynitride layer is formed over the transparent substrate. The metal oxynitride layer includes a first metal and a second metal. A reflective layer is formed over the transparent substrate. | 06-27-2013 |
20130164561 | Low-E Panels With Ternary Metal Oxide Dielectric Layer And Method For Forming The Same - Embodiments provided herein describe a low-e panel and a method for forming a low-e panel. A transparent substrate is provided. A metal oxide layer is formed over the transparent substrate. The metal oxide layer includes a first element, a second element, and a third element. A reflective layer is formed over the transparent substrate. The first element may include tin or zinc. The second element and the third element may each include tin, zinc, antimony, silicon, strontium, titanium, niobium, zirconium, magnesium, aluminum, yttrium, lanthanum, hafnium, or bismuth. The metal oxide layer may also include nitrogen. | 06-27-2013 |
20130189526 | Heat Stable SnAl and SnMg Based Dielectrics - A transparent dielectric composition comprising tin, oxygen and one of aluminum or magnesium with preferably higher than 15% by weight of aluminum or magnesium offers improved thermal stability over tin oxide with respect to appearance and optical properties under high temperature processes. For example, upon a heat treatment at temperatures higher than 500 C, changes in color and index of refraction of the present transparent dielectric composition are noticeably less than those of tin oxide films of comparable thickness. The transparent dielectric composition can be used in high transmittance, low emissivity coated panels, providing thermal stability so that there are no significant changes in the coating optical and structural properties, such as visible transmission, IR reflectance, microscopic morphological properties, color appearance, and haze characteristics, of the as-coated and heated treated products. | 07-25-2013 |
20130194668 | METHOD OF MAKING COATED ARTICLE INCLUDING ANTI-REFLECTION COATING WITH DOUBLE COATING LAYERS INCLUDING MESOPOROUS MATERIALS, AND PRODUCTS CONTAINING THE SAME - Certain examples relate to a method of making an antireflective (AR) coating supported by a glass substrate. The anti-reflection coating may include porous metal oxide(s) and/or silica, and may be produced using a sol-gel process. The pores may be formed and/or tuned in each layer respectively in such a manner that the coating ultimately may comprise a porous matrix, graded with respect to porosity. The gradient in porosity may be achieved by forming first and second layers using one or more of (a) nanoparticles of different shapes and/or sizes, (b) porous nanoparticles having varying pore sizes, and/or (c) compounds/materials of various types, sizes, and shapes that may ultimately be removed from the coating post-deposition (e.g., carbon structures, micelles, etc., removed through combustion, calcination, ozonolysis, solvent-extraction, etc.), leaving spaces where the removed materials were previously located. | 08-01-2013 |
20130194670 | METHOD OF MAKING COATED ARTICLE INCLUDING ANTI-REFLECTION COATING AND PRODUCTS CONTAINING THE SAME - Certain examples relate to a method of making an antireflective (AR) coating supported by a glass substrate. The anti-reflection coating may include porous metal oxide(s) and/or silica, and may be produced using a sol-gel process. The pores may be formed and/or tuned in each layer respectively in such a manner that the coating ultimately may comprise a porous matrix, graded with respect to porosity. The gradient in porosity may be achieved by forming first and second layers using one or more of (a) nanoparticles of different shapes and/or sizes, (b) porous nanoparticles having varying pore sizes, and/or (c) compounds/materials of various types, sizes, and shapes that may ultimately be removed from the coating post-deposition (e.g., carbon structures, micelles, etc., removed through combustion, calcination, ozonolysis, solvent-extraction, etc.), leaving spaces where the removed materials were previously located. | 08-01-2013 |
20130230698 | COATED ARTICLE WITH LOW-E COATING HAVING ZINC STANNAGE BASED LAYER BETWEEN IR REFLECTING LAYERS FOR REDUCED MOTTLING AND CORRESPONDING METHOD - A coated article is provided which may be heat treated (e.g., thermally tempered) and/or heat bent in certain example instances. In certain example embodiments, a zinc stannate based layer is provided between a tin oxide based layer and a silicon nitride based layer, and this has been found to significantly reduce undesirable mottling damage upon heat treatment/bending. This results in significantly improved bendability of the coated article in applications such as vehicle windshields and the like. | 09-05-2013 |
20130251923 | COATED ARTICLE WITH IR REFLECTING LAYER AND METHOD OF MAKING SAME - An IG window unit includes a coating supported by a glass substrate. The coating includes at least the following on the glass substrate moving from the glass substrate outwardly: at least one dielectric layer; a layer comprising zinc oxide; an infrared (IR) reflecting layer comprising silver; a layer comprising an oxide of Ni and/or Cr; an overcoat comprising a layer comprising tin oxide located over the oxide of Ni and/or Cr and a layer comprising silicon nitride. | 09-26-2013 |
20130295392 | ANTI-REFLECTION GLASS WITH TIN OXIDE NANOPARTICLES - An improved anti-reflection glass with higher transmittance (ΔTqe %) results from a coating of or including tin oxide (e.g., SnO | 11-07-2013 |
20130323464 | COATED ARTICLE COMPRISING A HYDROPHOBIC ANTI-REFLECTION SURFACE, AND METHODS FOR MAKING THE SAME - Certain examples embodiments relate to hydrophobic anti-reflection coatings, and/or methods of making the same. A major surface of an anti-reflection coating may be treated with a silane-based solution so as to increase the contact angle of the coating's surface. The silane-based solution may include silane(s) having alkyl and/or fluoroalkyl functional groups. The treatment of the major surface of the AR coating may include chemically grafting the surface of the coating such that the silanes and functional groups bond to an outermost portion of the coating. The presence of the silanes and/or the functional groups may lower the surface energy of the coating. The lowered surface energy and/or intrinsic roughness of the AR coating may cause the contact angle of the coating to rise to hydrophobic and/or super hydrophobic levels, such that the hydrophobic AR coating possesses anti-fogging and/or anti-fouling properties. | 12-05-2013 |
20140170308 | ANTIREFLECTIVE COATINGS WITH GRADATION AND METHODS FOR FORMING THE SAME - Embodiments provided herein describe antireflective coatings and methods for forming antireflective coatings. A substrate is provided. A first antireflective layer is formed over the substrate. The first antireflective layer has a first refractive index. A second antireflective layer is formed on the first antireflective layer. The second antireflective layer has a second refractive index. The first antireflective layer and the second antireflective layer jointly form an antireflective coating. The antireflective coating is graded such that the antireflective coating comprises at least three sub-layers, each of the at least three sub-layers having a unique refractive index. | 06-19-2014 |
20140186613 | ANTI-REFLECTION COATINGS WITH SELF-CLEANING PROPERTIES, SUBSTRATES INCLUDING SUCH COATINGS, AND RELATED METHODS - Methods of making titania coatings having self-cleaning properties, and associated articles are provided. In certain example instances, a substrate supports a layer comprising titanium dioxide. The substrate may support multiple layers. After curing, the resulting coating may reduce the occurrence of fouling. | 07-03-2014 |
20140268349 | Optical Coatings with Plate-Shaped Particles and Methods for Forming the Same - Embodiments provided herein describe optical coatings, panels having optical coatings thereon, and methods for forming optical coatings and panels. A transparent substrate is provided. An optical coating is formed on the transparent substrate. The optical coating includes a plurality of plate-shaped silicon dioxide particles. | 09-18-2014 |
20140272125 | ANTI-REFLECTION GLASS MADE FROM AGED SOL INCLUDING MIXTURE OF TRI-ALKOXYSILANE AND TETRA-ALKOXYSILANE - A method of making a coated article including an anti-reflection coating on a glass substrate, the method comprising: mixing at least a tri-alkoxysilane based binder and a tetra-alkoxysilane based binder with at least silica based nanoparticles and a solvent in forming a coating sol formulation; aging the coating sol formulation at least about two weeks so as to provide an aged coating sol formulation; coating at least a portion of said aged coating sol formulation onto the glass substrate to form a coating; and heating said glass substrate and said coating. Anti-reflection (AR) glasses show improved mechanical strength and higher transmittances (e.g., Tqe % gain). | 09-18-2014 |
20140272126 | ANTI-REFLECTION GLASS MADE FROM SOL MADE BY BLENDING TRI-ALKOXYSILANE AND TETRA-ALKOXYSILANE INCLUSIVE SOLS - Anti-reflection (AR) coating for a glass substrate is prepared by blending at least two different sols to form a coating sol which is used to coat a substrate such as a transparent glass substrate. In certain example embodiments, a method includes forming a first sol formulation including a colloidal solution having a tri-alkoxysilane based binder; forming a second sol formulation including a colloidal solution having a tetra-alkoxysilane based binder; blending the first and second sol formulations to form a coating sol formulation; coating at least a portion of said coating sol formulation onto the glass substrate to form a coating; and heating (e.g., for curing and/or annealing) the glass substrate and the coating thereon. Anti-reflection glasses show improved mechanical strength and higher transmittances (e.g., Tqe % gain). | 09-18-2014 |
Patent application number | Description | Published |
20140287254 | Heat Stable SnAl and SnMg Based Dielectrics - A transparent dielectric composition comprising tin, oxygen and one of aluminum or magnesium with preferably higher than 15% by weight of aluminum or magnesium offers improved thermal stability over tin oxide with respect to appearance and optical properties under high temperature processes. For example, upon a heat treatment at temperatures higher than 500 C, changes in color and index of refraction of the present transparent dielectric composition are noticeably less than those of tin oxide films of comparable thickness. The transparent dielectric composition can be used in high transmittance, low emissivity coated panels, providing thermal stability so that there are no significant changes in the coating optical and structural properties, such as visible transmission, IR reflectance, microscopic morphological properties, color appearance, and haze characteristics, of the as-coated and heated treated products. | 09-25-2014 |
20140334805 | SYSTEM AND/OR METHOD FOR HEAT TREATING CONDUCTIVE COATINGS USING WAVELENGTH-TUNED INFRARED RADIATION - Certain example embodiments relate to systems and/or methods for preferentially and selectively heat treating conductive coatings such as ITO using specifically tuned near infrared-short wave infrared (NIR-SWIR) radiation. In certain example embodiments, the coating is preferentially heated, thereby improving its properties while at the underlying substrate is kept at low temperatures. Such techniques are advantageous for applications on glass and/or other substrates, e.g., where elevated substrate temperatures can lead to stress changes that adversely effect downstream processing (such as, for example, cutting, grinding, etc.) and may sometimes even result in substrate breakage or deformation. Selective heating of the coating may in certain example embodiments be obtained by using IR emitters with peak outputs over spectral wavelengths where the conductive coating (or the conductive layer(s) in the conductive coating) is significantly absorbing but where the substrate has reduced or minimal absorption. | 11-13-2014 |
20140349041 | ARTICLES INCLUDING ANTICONDENSATION AND/OR LOW-E COATINGS AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to articles including anticondensation and/or low-E coatings that are exposed to an external environment, and/or methods of making the same. In certain example embodiments, the anticondensation and/or low-E coatings may be survivable in an outside environment. The coatings also may have a sufficiently low sheet resistance and hemispherical emissivity such that the glass surface is more likely to retain heat from the interior area, thereby reducing (and sometimes completely eliminating) the presence condensation thereon. The articles of certain example embodiments may be, for example, skylights, vehicle windows or windshields, IG units, VIG units, refrigerator/freezer doors, and/or the like. | 11-27-2014 |
20140356634 | COATED ARTICLE WITH IR REFLECTING LAYER AND METHOD OF MAKING SAME - Example embodiments of this invention relate to a coated article including an infrared (IR) reflecting layer of a material such as silver or the like, for use in an insulating glass (IG) window unit for example. In certain example embodiments, the coating is a single-silver type coating, and includes an overcoat including an uppermost layer of or including silicon nitride and a layer of or including tin oxide immediately under and contacting the silicon nitride based overcoat. In certain example embodiments, the thicknesses of the silicon nitride based overcoat and the tin oxide based layer are balanced (e.g., substantially equal, or equal plus/minus about 10%). It has surprisingly been found that such balancing results in an improvement in thermal cycling performance and improved mechanical durability. In certain example embodiments, the coating may realize surprisingly good substantially neutral film side reflective coloration, and may achieve an improved visible transmission, SHGC ratio and low U-values. Moreover, in certain example embodiments, stress in the overcoat of the coating may be reduced by reducing nitrogen gas flow (N | 12-04-2014 |
20150017355 | ARTICLES INCLUDING ANTICONDENSATION AND/OR LOW-E COATINGS AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to articles including anticondensation and/or low-E coatings that are exposed to an external environment, and/or methods of making the same. In certain example embodiments, the anticondensation and/or low-E coatings may be survivable in an outside environment. The coatings also may have a sufficiently low sheet resistance and hemispherical emissivity such that the glass surface is more likely to retain heat from the interior area, thereby reducing (and sometimes completely eliminating) the presence condensation thereon. The articles of certain example embodiments may be, for example, skylights, vehicle windows or windshields, IG units, VIG units, refrigerator/freezer doors, and/or the like. | 01-15-2015 |
20150072168 | BARRIER LAYERS COMPRISING NI-INCLUSIVE ALLOYS AND/OR OTHER METALLIC ALLOYS, DOUBLE BARRIER LAYERS, COATED ARTICLES INCLUDING DOUBLE BARRIER LAYERS, AND METHODS OF MAKING THE SAME - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 03-12-2015 |
20150118421 | COATED ARTICLE WITH IR REFLECTING LAYER AND METHOD OF MAKING SAME - Example embodiments of this invention relate to a coated article including an infrared (IR) reflecting layer of a material such as silver or the like, for use in an insulating glass (IG) window unit for example. In certain example embodiments, the coating is a single-silver type coating, and includes an overcoat including an uppermost layer of or including silicon nitride and a layer of or including tin oxide immediately under and contacting the silicon nitride based overcoat. In certain example embodiments, the thicknesses of the silicon nitride based overcoat and the tin oxide based layer are balanced (e.g., substantially equal, or equal plus/minus about 10%). It has surprisingly been found that such balancing results in an improvement in thermal cycling performance and improved mechanical durability. In certain example embodiments, the coating may realize surprisingly good substantially neutral film side reflective coloration, and may achieve an improved visible transmission, SHGC ratio and low U-values. Moreover, in certain example embodiments, stress in the overcoat of the coating may be reduced by reducing nitrogen gas flow (N | 04-30-2015 |
20150125715 | BARRIER LAYERS COMPRISING NI-INCLUSIVE ALLOYS AND/OR OTHER METALLIC ALLOYS, DOUBLE BARRIER LAYERS, COATED ARTICLES INCLUDING DOUBLE BARRIER LAYERS, AND METHODS OF MAKING THE SAME - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 05-07-2015 |
20150232378 | Low-E Panels With Ternary Metal Oxide Dielectric Layer and Method For Forming The Same - Embodiments provided herein describe a low-e panel and a method for forming a low-e panel. A transparent substrate is provided. A metal oxide layer is formed over the transparent substrate. The metal oxide layer includes a first element, a second element, and a third element. A reflective layer is formed over the transparent substrate. The first element may include tin or zinc. The second element and the third element may each include tin, zinc, antimony, silicon, strontium, titanium, niobium, zirconium, magnesium, aluminum, yttrium, lanthanum, hafnium, or bismuth. The metal oxide layer may also include nitrogen. | 08-20-2015 |
20150307391 | BARRIER LAYERS COMPRISING NI AND/OR TI, COATED ARTICLES INCLUDING BARRIER LAYERS, AND METHODS OF MAKING THE SAME - Certain example embodiments relate to a coated article including at least one infrared (IR) reflecting layer of a material such as silver or the like in a low-E coating, and methods of making the same. In certain cases, at least one layer of the coating is of or includes nickel and/or titanium (e.g., Ni | 10-29-2015 |
20150321949 | BARRIER LAYERS COMPRISING NI-INCLUSIVE ALLOYS AND/OR OTHER METALLIC ALLOYS, DOUBLE BARRIER LAYERS, COATED ARTICLES INCLUDING DOUBLE BARRIER LAYERS, AND METHODS OF MAKING THE SAME - Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a Ni | 11-12-2015 |
20150322709 | COATED ARTICLE WITH IR REFLECTING LAYER(S) AND METHOD OF MAKING SAME - A coated article is provided with at least one infrared (IR) reflecting layer. The IR reflecting layer may be of silver or the like. In certain example embodiments, a titanium oxide layer is provided over the IR reflecting layer, and it has been found that this surprisingly results in an IR reflecting layer with a lower specific resistivity (SR) thereby permitting thermal properties of the coated article to be improved. | 11-12-2015 |