Patent application number | Description | Published |
20080210303 | Front electrode for use in photovoltaic device and method of making same - This invention relates to a front electrode/contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and/or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and/or increased infrared (IR) reflection capability. At least one of the surfaces of the front glass substrate may be textured in certain example embodiments of this invention. | 09-04-2008 |
20080223430 | Buffer layer for front electrode structure in photovoltaic device or the like - Certain example embodiments of this invention relate to an electrode structure (e.g., front electrode structure) for use in a photovoltaic device or the like. In certain example embodiments, a buffer layer (e.g., of or including tin oxide) is provided between the front electrode and the semiconductor absorber film in a photovoltaic device. The buffer layer may be deposited via sputtering, and may or may not be doped in certain example instances. In an example context of use in CdS/CdTe photovoltaic devices, the buffer layer is advantageous in that it (one or more of): (a) provides a good work-function match to a possible CdS/CdTe film and the front electrode; (b) provides good durability in that it is better able to withstand attacks of sulfur vapors at elevated temperatures during possible CdS/CdTe processing; (c) may be at least partially conductive; and/or (d) provides good mechanical durability. | 09-18-2008 |
20080223436 | Back reflector for use in photovoltaic device - This invention relates to a photovoltaic device including a back reflector. In certain example embodiments, the back reflector includes a metallic based reflective layer provided on an interior surface of a rear glass substrate of the photovoltaic device. In certain example embodiments, the interior surface of the rear glass substrate is textured so that the reflector layer deposited thereon is also textured so as to provide desirable reflective characteristics. The rear glass substrate and reflector thereon are laminated to the interior surface of a front glass substrate of the photovoltaic device, with an active semiconductor film and electrode(s) therebetween, in certain example embodiments. | 09-18-2008 |
20080302414 | Front electrode for use in photovoltaic device and method of making same - This invention relates to a front electrode/contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and/or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and/or increased infrared (IR) reflection capability. | 12-11-2008 |
20080308145 | Front electrode including transparent conductive coating on etched glass substrate for use in photovoltaic device and method of making same - Certain example embodiments of this invention relate to a front electrode provided on an etched/patterned front glass substrate for use in a photovoltaic device or the like. The glass is a low-iron soda-lime-silica based glass. Etching of the glass may include immersing the soda-lime-silica based glass in an acid inclusive solution such as hydrofluoric acid (e.g., HF in aqueous solution) and/or hydrofluoric acid with a buffer, in order to selectively dissolve some of the glass thereby producing at least one textured/patterned substantially transparent surface of the glass substrate. A front electrode (single or multi-layered) is then formed (e.g., via sputter-deposition) on the textured surface of the front glass substrate, and may be used in a photovoltaic device or the like. | 12-18-2008 |
20080308147 | Rear electrode structure for use in photovoltaic device such as CIGS/CIS photovoltaic device and method of making same - A photovoltaic device including a rear electrode which may also function as a rear reflector. In certain example embodiments of this invention, the rear electrode includes a metallic based reflective film that is oxidation graded, so as to be more oxided closer to a rear substrate (e.g., glass substrate) supporting the electrode than at a location further from the rear substrate. In other words, the rear electrode is oxidation graded so as to be less oxided closer to a semiconductor absorber of the photovoltaic device than at a location further from the semiconductor absorber in certain example embodiments. In certain example embodiments, the interior surface of the rear substrate may optionally be textured so that the rear electrode deposited thereon is also textured so as to provide desirable electrical and reflective characteristics. In certain example embodiments, the rear electrode may be of or include Mo and/or MoO | 12-18-2008 |
20080308151 | Front electrode for use in photovoltaic device and method of making same - This invention relates to a front electrode/contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and/or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and/or increased infrared (IR) reflection capability. In certain example embodiments, the front electrode acts as not only a transparent conductive front contact/electrode but also a short pass filter that allows an increased amount of photons having high energy (such as in visible and near infra-red regions of the spectrum) into the active region or absorber of the photovoltaic device. | 12-18-2008 |
20090032098 | Photovoltaic device having multilayer antireflective layer supported by front substrate - In certain embodiments of this invention, an improved multilayer anti-reflection (AR) coating is provided on the exterior surface of the front glass substrate of a photovoltaic device. This AR coating functions to reduce reflection of desirable wavelengths from the front glass substrate, thereby allowing more light within the desirable solar spectrum to pass through the incident glass substrate and reach the photovoltaic semiconductor film so that the photovoltaic device can operate more efficiently. Also, the AR coating can reduce the amount of undesirable light (e.g., at least some IR and/or UV radiation) which reaches the semiconductor film of the device. In certain example embodiments, the multilayer AR coating includes a plurality of pairs of alternating high refractive index and low refractive index layers. | 02-05-2009 |
20090084438 | Front electrode for use in photovoltaic device and method of making same - This invention relates to a front electrode/contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and/or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and/or one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and/or increased infrared (IR) reflection capability. | 04-02-2009 |
20090101209 | Method of making an antireflective silica coating, resulting product, and photovoltaic device comprising same - A low-index silica coating may be made by forming silica sol including a silane and/or a colloidal silica. The silica precursor may be deposited on a substrate (e.g., glass substrate) to form a coating layer. The coating layer may then be cured and/or fired using temperature(s) of from about 550 to 700° C. A barrier undercoating including a metal oxide, such as, silica, alumina, titania, zirconia, and/or an oxynitride of silica may be deposited between the coating layer and substrate. Preferably, the barrier undercoating does not substantially affect the percent transmission or reflection of the low-index silica coating. The low-index silica based coating may be used as an antireflective (AR) film on a front glass substrate of a photovoltaic device (e.g., solar cell) or any other suitable application in certain example instances. | 04-23-2009 |
20090126791 | Photovoltaic device including front electrode having titanium oxide inclusive layer with high refractive index - Certain example embodiments of this invention relate to an electrode (e.g., front electrode) for use in a photovoltaic device or the like. In certain example embodiments, a transparent conductive oxide (TCO) of the front electrode for use in a photovoltaic device is of or includes titanium oxide doped with one or more of Nb, Zn and/or Al. Additional layers may also be provided in the front electrode in certain example embodiments. It has been found that the use of transparent conductive TiO | 05-21-2009 |
20090205956 | Method of making low-E coating using ceramic zinc inclusive target, and target used in same - A ceramic target is used in sputter-depositing a contact layer adjacent an infrared (IR) reflecting layer in certain example embodiments. For example, a ZnO | 08-20-2009 |
20090297864 | EMI filter for plasma display panel - A plasma display panel (PDP) includes an EMI filter at a front portion thereof for blocking/shielding substantial amounts of electromagnetic waves. The filters has high visible transmission, and is capable of blocking/shielding electromagnetic waves. In certain example embodiments, a silver based coating of the EMI filter reduces damage from EMI radiation through highly conductive Ag layers, blocks significant amounts of NIR and IR radiation from outdoor sunlight to reduce PDP panel temperature, and enhances contrast ratio through reduced reflection, while maintaining high visible transmission. In certain example embodiments, at least one layer of or including silicon nitride may be Si-rich, and/or at least one layer including an oxide of Ni and/or Cr may be a suboxide, in order to improve heat treatability of the coated article. | 12-03-2009 |
20100027144 | Articles with protective coating - A first-surface mirror or other substrate includes protective coating and is for use in a solar collector, projection television, or the like. In certain example embodiments, a protective coating is formed over a reflective coating of a first surface mirror. In other aspects, this application is related to other coated articles, including, for example, articles (such as insulating glass (IG) window units) having coatings providing for low emissivity. In certain example embodiments, the protective coating may comprise organic materials containing alkyl chains or fluoro-alkyl chains and reactive functionalities comprising silicon and/or phosphorous so as to protect the reflective coating and improve durability. | 02-04-2010 |
20100040892 | Coated article with transparent conductive oxide film doped to adjust Fermi level, and method of making same - A transparent conductive oxide (TCO) based film is formed on a substrate. The film may be formed by sputter-depositing, so as to include both a primary dopant (e.g., Al) and a co-dopant (e.g., Ag). The benefit of using the co-dopant in depositing the TCO inclusive film may be two-fold: (a) it may prevent or reduce self-compensation of the primary dopant by a more proper positioning of the Fermi level, and/or (b) it may promote declustering of the primary dopant, thereby freeing up space in the metal sublattice and permitting more primary dopant to create electrically active centers so as to improve conductivity of the film. Accordingly, the use of the co-dopant permits the primary dopant to be more effective in enhancing conductivity of the TCO inclusive film, without significantly sacrificing visible transmission characteristics. An example TCO in certain embodiments is ZnAlO | 02-18-2010 |
20100067223 | Lighting system cover including AR-coated textured glass, and method of making the same - Certain example embodiments relate to lighting system covers that include AR-coated textured glass, and/or methods of making the same. In certain example embodiments, at least one light source is provided proximate to a cover comprising a glass substrate. The glass substrate includes an anti-reflective (AR) coating on the surface that is closer to the at least one light source, and the glass substrate is textured (e.g., such that it is substantially prismatic in texture) on the surface opposite the AR-coated surface. The surface of the glass substrate on which the AR coating is formed may be a flat, irregular, or textured matte. An optional AR coating also may be formed on the textured surface of the glass substrate. | 03-18-2010 |
20100086774 | Display-on-demand mirror with optional defogging feature, and method of making the same - Certain example embodiments relate to robust semi-transparent coatings that are suitable for use in a wide variety of display-on-demand mirror applications, and methods of making the same. In certain example embodiments, a coated article includes a coating supported by a glass substrate. A reflective metal-inclusive layer is formed, directly or indirectly, on the glass substrate. A silicon oxide inclusive layer is formed, directly or indirectly, on the reflective metallic layer. A titanium oxide inclusive layer is formed, directly or indirectly, on the silicon oxide inclusive layer. The metal-inclusive layer is formed so as to reflect incoming light away from the glass substrate such that substantially less incoming light would be reflected away from the glass substrate if lighting were provided on a side of the glass substrate opposite the coating than if no lighting were provided. The surface of the coated article need not necessarily be conductive. The metal-inclusive layer may be connected to a power source so as to heat it (e.g., for defogging purposes). | 04-08-2010 |
20100089444 | Method of making front electrode of photovoltaic device having etched surface and corresponding photovoltaic device - Certain example embodiments of this invention relate to a photovoltaic (PV) device including an electrode such as a front electrode/contact, and a method of making the same. In certain example embodiments, the front electrode has a textured (e.g., etched) surface that faces the photovoltaic semiconductor film of the PV device. The front electrode has a transparent conductive oxide (TCO) film having first and second layers (continuous or discontinuous) of the same material (e.g., zinc oxide, zinc aluminum oxide, indium-tin-oxide, or tin oxide), where the first TCO layer is sputter-deposited using a ceramic sputtering target(s) and the second TCO layer of the same material is sputter-deposited using a metallic or substantially metallic sputtering target(s). This allows the better quality TCO of the film, deposited more slowly via the ceramic target(s), to be formed using the ceramic target and the lesser quality TCO of the film to be deposited more quickly and cost effectively via the metallic target(s). After the etching, most or all of the better quality ceramic-deposited TCO remains whereas much of the lesser quality metallic-deposited TCO of the film was removed during the etching process. | 04-15-2010 |
20100187990 | EMI filter for plasma display panel - A plasma display panel (PDP) includes an EMI filter at a front portion thereof for blocking/shielding substantial amounts of electromagnetic waves. The filters has high visible transmission, and is capable of blocking/shielding electromagnetic waves. In certain example embodiments, a silver based coating of the EMI filter reduces damage from EMI radiation through highly conductive Ag layers, blocks significant amounts of NIR and IR radiation from outdoor sunlight to reduce PDP panel temperature, and enhances contrast ratio through reduced reflection, while maintaining high visible transmission. In certain example embodiments, at least one layer of or including silicon nitride may be Si-rich, and/or at least one layer including an oxide of Ni and/or Cr may be a suboxide, in order to improve heat treatability of the coated article. | 07-29-2010 |
20100200395 | Techniques for depositing transparent conductive oxide coatings using dual C-MAG sputter apparatuses - Certain example embodiments relate to techniques for depositing transparent conductive oxide (TCO) coatings using dual C-MAG sputtering apparatuses. Certain example embodiments provide a closed-loop system with the following process conditions. About 90% of the oxygen gas provided to the apparatus is provided via a top gas inlet. Pressure within the apparatus is increased to about 10 | 08-12-2010 |
20100304523 | Method of enhancing the conductive and optical properties of deposited indium tin oxide (ITO) thin films - Certain example embodiments of this invention relate to a method of activating an indium tin oxide (ITO) thin film deposited, directly or indirectly, on a substrate. The ITO thin film is baked in a low oxygen environment at a temperature of at least 450 degrees C. for at least 10 minutes so as to provide for (1) a post-baked resistivity of the ITO thin film that is below a resistivity of a corresponding air-baked ITO thin film, (2) a post-baked visible spectrum absorption and transmission of the ITO thin film that respectively are below and above the absorption and transmission of the corresponding air-baked ITO thin film, and (3) a post-baked infrared reflectivity of the ITO thin film that is above the reflectivity of the corresponding air-baked ITO thin film. The substrate with the activated ITO thin film may be used in a photovoltaic device, for example. | 12-02-2010 |
20110081532 | Silicon titanium oxide coating, coated article including silicon titanium oxide coating, and method of making the same - Certain example embodiments relate to a layer of or including Ti | 04-07-2011 |
20110094580 | Photovoltaic device including front electrode having titanium oxide inclusive layer with high refractive index - Certain example embodiments of this invention relate to an electrode (e.g., front electrode) for use in a photovoltaic device or the like. In certain example embodiments, a transparent conductive oxide (TCO) of the front electrode for use in a photovoltaic device is of or includes titanium oxide doped with one or more of Nb, Zn and/or Al. Additional layers may also be provided in the front electrode in certain example embodiments. It has been found that the use of transparent conductive TiO | 04-28-2011 |
20110157703 | Temperable three layer antireflective coating, coated article including temperable three layer antireflective coating, and/or method of making the same - A coated article includes a temperable antireflection (AR) coating that utilizes medium and low index (index of refraction “n”) layers having compressive residual stress in the AR coating. In certain example embodiments, the coating may include the following layers from the glass substrate outwardly: silicon oxynitride (SiO | 06-30-2011 |
20110169402 | EMI filter for plasma display panel - A plasma display panel (PDP) includes an EMI filter at a front portion thereof for blocking/shielding substantial amounts of electromagnetic waves. The filters has high visible transmission, and is capable of blocking/shielding electromagnetic waves. In certain example embodiments, a silver based coating of the EMI filter reduces damage from EMI radiation through highly conductive Ag layers, blocks significant amounts of NIR and IR radiation from outdoor sunlight to reduce PDP panel temperature, and enhances contrast ratio through reduced reflection, while maintaining high visible transmission. In certain example embodiments, at least one layer of or including silicon nitride may be Si-rich, and/or at least one layer including an oxide of Ni and/or Cr may be a suboxide, in order to improve heat treatability of the coated article. | 07-14-2011 |
20110176212 | Secondary reflector panel (SRP) with heat-treatable coating for concentrated solar power applications, and/or methods of making the same - Certain example embodiments relate to an improved secondary reflector panel with a heat-treatable coating. Certain example embodiments related to method of making a secondary reflector panel where a reflective coating is disposed onto a glass substrate. A portion of the reflective coating is removed and a frit material is disposed over the reflective coating. An elevated temperature is applied to the glass substrate, the coating, and the frit material where the frit is cured and the glass substrate is formed as desired. | 07-21-2011 |
20110176236 | Coated articles with heat treatable coating for concentrated solar power applications, and/or methods of making the same - Certain example embodiments relate to heat treatable coated articles, e.g., suitable for concentrating solar power (CSP) and/or other applications. For instance, the heat treatable coated article may be a secondary reflector panel, primary reflector, etc., where a reflective coating is disposed on a glass substrate. A portion of the reflective coating may be removed and a frit material is disposed over the reflective coating. An elevated temperature may be applied to the glass substrate, the coating, and the frit material where the frit is cured. The coated article may be left flat, or optionally cold- or hot-bent into a desired shape suitable for a desired application. | 07-21-2011 |
20110214733 | Front electrode for use in photovoltaic device and method of making same - This invention relates to a front electrode/contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and/or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and/or increased infrared (IR) reflection capability. In certain example embodiments, the front electrode acts as not only a transparent conductive front contact/electrode but also a short pass filter that allows an increased amount of photons having high energy (such as in visible and near infra-red regions of the spectrum) into the active region or absorber of the photovoltaic device. | 09-08-2011 |
20120057236 | Temperable three layer antirefrlective coating, coated article including temperable three layer antirefrlective coating, and/or method of making the same - A coated article includes a temperable antireflection (AR) coating that utilizes medium and low index (index of refraction “n”) layers having compressive residual stress in the AR coating. In certain example embodiments, the coating may include the following layers from the glass substrate outwardly: silicon oxynitride (SiO | 03-08-2012 |
20120060916 | FRONT ELECTRODE FOR USE IN PHOTOVOLTAIC DEVICE AND METHOD OF MAKING SAME - This invention relates to a front electrode/contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and/or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and/or one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and/or increased infrared (IR) reflection capability. | 03-15-2012 |
20120080090 | Transparent conductor film stack with cadmium stannate, corresponding photovoltaic device, and method of making same - Certain example embodiments relate to a transparent conductor film stack with cadmium stannate used as a front contact layer and/or a buffer layer in a photovoltaic device or the like. The cadmium stannate-based layers may be provided between the front glass substrate and the semiconductor absorber film in a photovoltaic device (e.g., a CdS and/or CdTe based photovoltaic device). In certain example embodiments, the buffer layer based on cadmium stannate may have a higher resistivity than the transparent conductive oxide layer based on cadmium stannate. In certain example embodiments, one or more index matching layer(s) may be provided between the glass substrate and the layer(s) comprising cadmium stannate, e.g., to help overcome the optical mismatch between the glass substrate and the CdSnOx. | 04-05-2012 |
20130025783 | DISPLAY-ON-DEMAND MIRROR WITH OPTIONAL DEFOGGING FEATURE, AND METHOD OF MAKING THE SAME - Certain example embodiments relate to robust semi-transparent coatings that are suitable for use in a wide variety of display-on-demand mirror applications, and methods of making the same. In certain example embodiments, a coated article includes a coating supported by a glass substrate. A reflective metal-inclusive layer is formed, directly or indirectly, on the glass substrate. A silicon oxide inclusive layer is formed, directly or indirectly, on the reflective metallic layer. A titanium oxide inclusive layer is formed, directly or indirectly, on the silicon oxide inclusive layer. The metal-inclusive layer is formed so as to reflect incoming light away from the glass substrate such that substantially less incoming light would be reflected away from the glass substrate if lighting were provided on a side of the glass substrate opposite the coating than if no lighting were provided. The surface of the coated article need not necessarily be conductive. The metal-inclusive layer may be connected to a power source so as to heat it (e.g., for defogging purposes). | 01-31-2013 |
20130063941 | LIGHTING SYSTEM COVER INCLUDING AR-COATED TEXTURED GLASS, AND METHOD OF MAKING THE SAME - Certain example embodiments relate to lighting system covers that include AR-coated textured glass, and/or methods of making the same. In certain example embodiments, at least one light source is provided proximate to a cover comprising a glass substrate. The glass substrate includes an anti-reflective (AR) coating on the surface that is closer to the at least one light source, and the glass substrate is textured (e.g., such that it is substantially prismatic in texture) on the surface opposite the AR-coated surface. The surface of the glass substrate on which the AR coating is formed may be a flat, irregular, or textured matte. An optional AR coating also may be formed on the textured surface of the glass substrate. | 03-14-2013 |
20140154488 | SILICON TITANIUM OXIDE COATING, COATED ARTICLE INCLUDING SILICON TITANIUM OXIDE COATING, AND METHOD OF MAKING THE SAME - Certain example embodiments relate to a layer of or including Ti | 06-05-2014 |
20140160585 | FIRST SURFACE MIRROR, METHOD OF MAKING THE SAME, AND SCANNER AND/OR COPIER INCLUDING THE SAME - A first surface mirror including for example a substrate, a reflective layer (including aluminum, an aluminum alloy, silver, and/or a silver alloy), a dielectric layer, and an overcoat layer, a method of making the same, and a scanner and/or copier including the same are provided. | 06-12-2014 |
20140202210 | COATED ARTICLE WITH HEAT TREATABLE COATING FOR CONCENTRATED SOLAR POWER APPLICATIONS, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to heat treatable coated articles, e.g., suitable for concentrating solar power (CSP) and/or other applications. For instance, the heat treatable coated article may be a secondary reflector panel, primary reflector, etc., where a reflective coating is disposed on a glass substrate. A portion of the reflective coating may be removed and a frit material is disposed over the reflective coating. An elevated temperature may be applied to the glass substrate, the coating, and the frit material where the frit is cured. The coated article may be left flat, or optionally cold- or hot-bent into a desired shape suitable for a desired application. | 07-24-2014 |