Patent application number | Description | Published |
20080222827 | Rain sensor embedded on printed circuit board - A system and/or method for sensing the presence of moisture (e.g., rain) and/or other material(s) on a window such as a vehicle window (e.g., vehicle windshield, sunroof or backlite). In certain example embodiments, a plurality of sensing capacitors are supported by a window such as a vehicle windshield, the capacitors each having a different field and/or pattern. A sensing circuit outputs an analog signal that is based on and/or related to the capacitances of one or more of the sensing capacitors. In certain example embodiments, a flexible printed circuit board (PCB) mountable in or on a vehicle window is provided. First and second sensing circuits are formed on opposing sides of the flexible PCB, with each said sensing circuit comprising a plurality of different fractal structures. A ground plane is located between the first and second sensing circuits, with the ground plane being arranged so as to decouple the first and second capacitor arrays and to shield the first capacitor array from fields emanating from the second capacitor array and vice versa. The electronic device is configured to detect moisture on an exterior surface of the vehicle window, humidity on an interior surface of the vehicle window, and EMI. | 09-18-2008 |
20080225395 | Light sensor embedded on printed circuit board - A system and/or method for sensing the presence of moisture (e.g., rain) and/or other material(s) on a window such as a vehicle window (e.g., vehicle windshield, sunroof or backlite). Such techniques may be used in connection with a light sensor. In certain example embodiments, a flexible printed circuit board (PCB) includes a light sensor comprising a light sensor flip-chip, with the light sensor flip-chip including at least two light sensor arrays, and with each said sensor array being configured to sense light of a predetermined wavelength. An adhesive bonds the light sensor to the PCB. A hole is formed in the PCB and the opaque layer so as to allow the light sensor arrays to see through the hole formed in the PCB and the opaque layer. A state of the vehicle lights is settable in dependence on the light sensor. The PCB is located in or is supported by the vehicle windshield. | 09-18-2008 |
20080226926 | Scratch resistant coated glass article including layer(s) resistant to fluoride-based etchant(s), and method of making article using combustion CVD - A scratch resistant coated article is provided which is also resistant to attacks by at least some fluoride-based etchant(s) for at least a period of time. In certain example embodiments, an anti-etch layer(s) is provided on a glass substrate in order to protect the glass substrate from attacks by fluoride-based etchant(s), and an underlayer(s) deposited by flame pyrolysis may be provided under at least the anti-etch layer(s). | 09-18-2008 |
20080234895 | Time, space, and/or wavelength multiplexed capacitive light sensor, and related methods - In certain example embodiments, techniques for operating vehicle lights are provided. A capacitive light sensor is configured to sense a presence and intensity of light over at least one wavelength, with each said wavelength being associated with a respective output channel of the light sensor. A buffer is filled with data from the at least one output channel, with the buffer being filled with a predetermined number of data points at a predetermined frequency. An edge change is detected in the data in the buffer. An on/off state of the vehicle lights is maintained when an edge change is not detected. When an edge change is detected, when the data passes from a high value to a low value through a first predefined threshhold and remains lower than the first predefined threshold for a persistence interval, the vehicle lights are turned on, and when the data passes from a low value to a high value through a second predefined threshold and remains higher than the second predefined threshold value for the persistence interval, the vehicle lights are turned off. The second threshold is equal to the first threshold plus a hysteresis factor. The capacitive light sensing approaches of certain example embodiments may be time, space, and/or wavelength multiplexed. | 09-25-2008 |
20090115922 | Ruggedized switchable glazing, and/or method of making the same - Certain example embodiments of this invention relate to ruggedized switchable glazings, and/or methods of making the same. The PDLC stack of certain example embodiments includes an outer substrate, a low-E UV blocking coating deposited on an inner surface of the outer substrate, a first PVB or EVA laminate, a first PET layer, a first TCO layer, the PDLC layer, a second TCO layer, a second PET layer, a second PVB or EVA laminate, and an inner substrate. The substrates may be glass substrates. The low-E UV blocking coating may include at least two layers of or including silver and/or may include one or more IR layers. Thus, certain example embodiments may advantageously reduce one or more problems associated with residual haze, color change, flicker, structural changes in the polymer and/or the LC, degradations in state-switching response times, delamination, etc. The PDLC stack of certain example embodiments may be used in connection with any form of coated article, such as, for example, windows, windshields, IG units, etc. | 05-07-2009 |
20090126476 | Rain sensor with sigma-delta modulation and/or footprinting comparison(s) - A system and/or method for sensing the presence of moisture (e.g., rain) and/or other material(s) on a window such as a vehicle window (e.g., vehicle windshield, sunroof or backlite). In certain example embodiments of the invention, at least one sensing capacitor is supported by a window such as a vehicle windshield, the capacitor(s) having a field that is affected by moisture (e.g., rain) on a surface of the window. A sensing circuit outputs an analog signal that is based on and/or related to the capacitance(s) of the sensing capacitor(s). The analog output of the circuit may be converted to a digital signal via sigma-delta modulation, and subjected to processing (e.g., correlation) for determining whether moisture (e.g., rain, dew, fog, etc.) or the like is present on the surface of the window. | 05-21-2009 |
20090135319 | Ruggedized switchable glazing, and/or method of making the same - Certain example embodiments of this invention relate to ruggedized switchable glazings, and/or methods of making the same. The PDLC stack of certain example embodiments includes an outer substrate, a low-E UV blocking coating deposited on an inner surface of the outer substrate, a first PVB or EVA laminate, a first PET layer, a first TCO layer, the PDLC layer, a second TCO layer, a second PET layer, a second PVB or EVA laminate, and an inner substrate. The substrates may be glass substrates. The low-E UV blocking coating may include at least two layers of or including silver and/or may include one or more IR layers. Thus, certain example embodiments may advantageously reduce one or more problems associated with residual haze, color change, flicker, structural changes in the polymer and/or the LC, degradations in state-switching response times, delamination, etc. The PDLC stack of certain example embodiments may be used in connection with any form of coated article, such as, for example, windows, windshields, IG units, etc. | 05-28-2009 |
20090142603 | Heat treatable coated article with diamond-like carbon (DLC) and/or zirconium in coating - In certain example embodiments, a coated article includes respective layers including hydrogenated diamond-like carbon (DLC) and zirconium nitride before heat treatment (HT). During HT, the hydrogenated DLC acts as a fuel which upon combustion with oxygen produces carbon dioxide and/or water. The high temperature developed during this combustion heats the zirconium nitride to a temperature(s) well above the heat treating temperature, thereby causing the zirconium nitride to be transformed into a new post-HT layer including zirconium oxide that is very scratch resistant and durable. | 06-04-2009 |
20090155500 | Vacuum insulating glass unit with large pump-out port, and/or method of making the same - Certain example embodiments of this invention relate to vacuum insulating glass (VIG) units, and/or methods of making the same. More particularly, certain example embodiments relate to VIG units having large pump-out ports, and/or methods of making the same. In certain example embodiments, a vacuum insulating glass (VIG) unit is provided. First and second spaced-apart glass substrates are provided, and a gap is provided between the spaced-apart substrates. A pump-out port has a size (e.g., diameter) of at least about 30 mm. A cover seals the pump-out port. A getter is in communication with the gap. The pump-out port is sealed using the cover, in making the vacuum insulating glass unit, via a sealing material provided proximate to the cover and/or proximate to the pump-out port. | 06-18-2009 |
20090162668 | Hydrophilic coating and method of making same - Methods of making hydrophilic coatings having anti-fog properties, and hydrophilic articles are provided. In certain example instances, a substrate supports a layer comprising titanium dioxide and a ether/oleate-based organic compound. After drying or curing, the resulting coating may be hydrophilic thereby allowing water or the like to easily shed therefrom (e.g., providing anti-fog properties). | 06-25-2009 |
20090165550 | Rain sensor for detecting rain or other material on window of a vehicle or on other surface - A system and/or method for sensing the presence of moisture (e.g., rain) and/or other material(s) on a window such as a vehicle window (e.g., vehicle windshield or backlite). In certain example embodiments, a capacitor-based system and/or method is provided for auto-correlating sensor data to determine the existence of a material on the window, and then cross-correlating sensor data to identify the type and/or amount of that material (e.g., rain). This data may be used to actuate and/or deactivate a vehicle's wiper(s), and/or adjust wiper speed. In certain example embodiments, the sensor may include an array of at least two capacitors. In certain example embodiments, the system and/or method may perform check(s) to enhance the accuracy of the detection by comparing, for example, the sign of autocorrelation values, maximum autocorrelation values, and/or gradients of autocorrelation values | 07-02-2009 |
20090263667 | Method of making scratch resistant coated glass article including layer(s) resistant to fluoride-based etchant(s) - A method is provided for making a coated article including an anti-etch layer(s) that is resistant to attacks by at least some fluoride-based etchant(s) for at least a period of time. In certain example embodiments, an anti-etch layer(s) is provided on a glass substrate in order to protect the glass substrate from attacks by fluoride-based etchant(s). In certain example embodiments, the anti-etch layer(s) is formed using at least one ion beam (possibly in combination with at least one sputtering target). In certain embodiments, a diamond-like carbon (DLC) inclusive layer(s) may be provided over and/or under the anti-etch layer. | 10-22-2009 |
20100186450 | Heat treatable coated article with diamond-like carbon (DLC) and/or zirconium in coating - In certain example embodiments, a coated article includes respective layers including diamond-like carbon (DLC) and zirconium nitride before heat treatment (HT). During HT, the hydrogenated DLC acts as a fuel which upon combustion with oxygen produces carbon dioxide and/or water. The high temperature developed during this combustion heats the zirconium nitride to a temperature(s) well above the heat treating temperature, thereby causing the zirconium nitride to be transformed into a new post-HT layer including zirconium oxide that is scratch resistant and durable. | 07-29-2010 |
20100242587 | Rain sensor for detecting rain or other material on window of a vehicle or on other surface - A system and/or method for sensing the presence of moisture (e.g., rain) and/or other material(s) on a window such as a vehicle window (e.g., vehicle windshield or backlite). In certain example embodiments, a capacitor-based system and/or method is provided for auto-correlating sensor data to determine the existence of a material on the window, and then cross-correlating sensor data to identify the type and/or amount of that material (e.g., rain). This data may be used to actuate and/or deactivate a vehicle's wiper(s), and/or adjust wiper speed. In certain example embodiments, the sensor may include an array of at least two capacitors. In certain example embodiments, the system and/or method may perform check(s) to enhance the accuracy of the detection by comparing, for example, the sign of autocorrelation values, maximum autocorrelation values, and/or gradients of autocorrelation values. | 09-30-2010 |
20100273002 | Heat treatable coated article with diamond-like carbon (DLC) and/or Zirconium in coating - In certain example embodiments, a coated article includes respective layers including hydrogenated diamond-like carbon (DLC) and zirconium nitride before heat treatment (HT). During HT, the hydrogenated DLC acts as a fuel which upon combustion with oxygen produces carbon dioxide and/or water. The high temperature developed during this combustion heats the zirconium nitride to a temperature(s) well above the heat treating temperature, thereby causing the zirconium nitride to be transformed into a new post-HT layer including zirconium oxide that is very scratch resistant and durable. | 10-28-2010 |
20110030772 | Electronic device including graphene-based layer(s), and/or method or making the same - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C | 02-10-2011 |
20110030879 | Debonding and transfer techniques for hetero-epitaxially grown graphene, and products including the same - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C | 02-10-2011 |
20110030991 | Large area deposition and doping of graphene, and products including the same - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C | 02-10-2011 |
20110033688 | Large area deposition of graphene via hetero-epitaxial growth, and products including the same - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C | 02-10-2011 |
20110048614 | Electrochromic devices, assemblies incorporating electrochromic devices, and/or methods of making the same - Certain example embodiments of this invention relate to electrochromic (EC) devices, assemblies incorporating electrochromic devices, and/or methods of making the same. More particularly, certain example embodiments of this invention relate to improved EC materials, EC device stacks, high-volume manufacturing (HVM) compatible process integration schemes, and/or high-throughput low cost deposition sources, equipment, and factories. | 03-03-2011 |
20110051221 | Electrochromic devices, assemblies incorporating electrochromic devices, and/or methods of making the same - Certain example embodiments of this invention relate to electrochromic (EC) devices, assemblies incorporating electrochromic devices, and/or methods of making the same. More particularly, certain example embodiments of this invention relate to improved EC materials, EC device stacks, high-volume manufacturing (HVM) compatible process integration schemes, and/or high-throughput low cost deposition sources, equipment, and factories. | 03-03-2011 |
20110104374 | Heat treatable coated article with diamond-like carbon (DLC) and/or zirconium in coating - In certain example embodiments, a coated article includes respective layers including diamond-like carbon (DLC) and zirconium nitride before heat treatment (HT). During HT, the hydrogenated DLC acts as a fuel which upon combustion with oxygen produces carbon dioxide and/or water. The high temperature developed during this combustion heats the zirconium nitride to a temperature(s) well above the heat treating temperature, thereby causing the zirconium nitride to be transformed into a new post-HT layer including zirconium oxide that is scratch resistant and durable. | 05-05-2011 |
20110111204 | Window with anti-bacterial and/or anti-fungal feature and method of making same - Certain example embodiments of this invention relate to a window having anti-fungal/anti-bacterial properties and/or self-cleaning properties, and a method of making the same. In certain example embodiments, a silver based layer is be provided and the layer(s) located thereover (e.g., the zirconium oxide inclusive layer) are designed to permit silver particles to migrate/diffuse to the surface over time to kill bacteria/germs at the surface of the coated article thereby creating an anti-bacterial/anti-fungal effect. In certain example embodiments, silver may also or instead be mixed in with other material as the top layer of the anti-bacterial coating. | 05-12-2011 |
20110135914 | Scratch resistant coated glass article including carbide layer(s) resistant to fluoride-based etchant(s) - A scratch resistant coated article is provided which is also resistant to attacks by at least some fluoride-based etchant(s) for at least a period of time. In certain example embodiments, an anti-etch layer(s) is provided on a glass substrate in order to protect the glass substrate from attacks by fluoride-based etchant(s). In certain example embodiments, the anti-etch layer(s) is substantially transparent to visible light. In certain embodiments, a DLC layer(s) may be provided over the anti-etch layer. An underlayer may be provided under the anti-etch layer(s) in certain example embodiments. In certain example embodiments, the anti-etch layer(s) may be of or include a carbide and/or oxycarbide of Zr, Sn or the like. | 06-09-2011 |
20110143045 | Large area deposition of graphene on substrates, and products including the same - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). A substrate having a surface to be coated is provided. A self-assembled monolayer (SAM) template is disposed on the surface to be coated. A precursor comprising a precursor molecule is provided, with the precursor molecule being a polycyclic aromatic hydrocarbon (PAH) and discotic molecule. The precursor is dissolved to form a solution. The solution is applied to the substrate having the SAM template disposed thereon. The precursor molecule is photochemically attached to the SAM template. The substrate is heated to at least 450 degrees C. to form a graphene-inclusive film. Advantageously, the graphene-inclusive film may be provided directly on the substrate, e.g., without the need for a liftoff process. | 06-16-2011 |
20110214728 | Electronic devices including transparent conductive coatings including carbon nanotubes and nanowire composites, and methods of making the same - Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σ | 09-08-2011 |
20110217451 | Large-area transparent conductive coatings including doped carbon nanotubes and nanowire composites, and methods of making the same - Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σ | 09-08-2011 |
20110217455 | Large-area transparent conductive coatings including alloyed carbon nanotubes and nanowire composites, and methods of making the same - Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σ | 09-08-2011 |
20110290295 | Thermoelectric/solar cell hybrid coupled via vacuum insulated glazing unit, and method of making the same - Certain example embodiments provide techniques for improving the output of hybrid systems comprising photovoltaic (PV) and thermoelectric (TE) modules in conjunction with super-insulating, yet optically transmissive, vacuum insulated glass (VIG) unit technologies. More particularly, certain example embodiments relate to hybrid systems including hydrogenated microcrystalline silicon (mc-Si), hydrogenated amorphous silicon (a-Si), bulk hetero junction solar cell, and/or the like, that may be used together with a TE generator, that achieves high operational PV and TE efficiencies under ambient conditions. In that regard, certain example embodiments effectively partition the solar spectrum in order to yield an increased conversion efficiency of a PV-TE hybrid system with a solar cell operating at ambient temperature. | 12-01-2011 |
20120082789 | WINDOW WITH ANTI-BACTERIAL AND/OR ANTI-FUNGAL FEATURE AND METHOD OF MAKING SAME - Certain example embodiments of this invention relate to a window having anti-fungal/anti-bacterial properties and/or self-cleaning properties, and a method of making the same. In certain example embodiments, a silver based layer is be provided and the layer(s) located thereover (e.g., the zirconium oxide inclusive layer) are designed to permit silver particles to migrate/diffuse to the surface over time to kill bacteria/germs at the surface of the coated article thereby creating an anti-bacterial/anti-fungal effect. In certain example embodiments, silver may also or instead be mixed in with other material as the top layer of the anti-bacterial coating. | 04-05-2012 |
20120086022 | Light source with light scattering features, device including light source with light scattering features, and/or methods of making the same - Certain example embodiments of this invention relate to techniques for improving the performance of Lambertian and non-Lambertian light sources. In certain example embodiments, this is accomplished by (1) providing an organic-inorganic hybrid material on LEDs (which in certain example embodiments may be a high index of refraction material), (2) enhancing the light scattering ability of the LEDs (e.g., by fractal embossing, patterning, or the like, and/or by providing randomly dispersed elements thereon), and/or (3) improving performance through advanced cooling techniques. In certain example instances, performance enhancements may include, for example, better color production (e.g., in terms of a high CRI), better light production (e.g., in terms of lumens and non-Lambertian lighting), higher internal and/or external efficiency, etc. | 04-12-2012 |
20120086023 | Insulating glass (IG) or vacuum insulating glass (VIG) unit including light source, and/or methods of making the same - Certain example embodiments of this invention relate to techniques for improving the performance of Lambertian and non-Lambertian light sources. In certain example embodiments, this is accomplished by (1) providing an organic-inorganic hybrid material on LEDs (which in certain example embodiments may be a high index of refraction material), (2) enhancing the light scattering ability of the LEDs (e.g., by fractal embossing, patterning, or the like, and/or by providing randomly dispersed elements thereon), and/or (3) improving performance through advanced cooling techniques. In certain example instances, performance enhancements may include, for example, better color production (e.g., in terms of a high CRI), better light production (e.g., in terms of lumens and non-Lambertian lighting), higher internal and/or external efficiency, etc. | 04-12-2012 |
20120087127 | Light source, device including light source, and/or methods of making the same - Certain example embodiments of this invention relate to techniques for improving the performance of Lambertian and non-Lambertian light sources. In certain example embodiments, this is accomplished by (1) providing an organic-inorganic hybrid material on LEDs (which in certain example embodiments may be a high index of refraction material), (2) enhancing the light scattering ability of the LEDs (e.g., by fractal embossing, patterning, or the like, and/or by providing randomly dispersed elements thereon), and/or (3) improving performance through advanced cooling techniques. In certain example instances, performance enhancements may include, for example, better color production (e.g., in terms of a high CRI), better light production (e.g., in terms of lumens and non-Lambertian lighting), higher internal and/or external efficiency, etc. | 04-12-2012 |
20120088045 | Vacuum insulated glass (VIG) unit including nano-composite pillars, and/or methods of making the same - Certain example embodiments of this invention relate to composite pillar arrangements for VIG units that include both harder and softer materials. The softer materials are located on the outside or extremities of the central, harder pillar material. In certain example embodiments, a high aspect ratio mineral lamellae is separated by an organic “glue” or polymer. When provided around a high strength pillar, the combination of the pillar and such a nano-composite structure may advantageously result in superior strength compared to a monolithic system, e.g., where significant wind loads, thermal stresses, and/or the like are encountered. | 04-12-2012 |
20120088319 | Light source with hybrid coating, device including light source with hybrid coating, and/or methods of making the same - Certain example embodiments of this invention relate to techniques for improving the performance of Lambertian and non-Lambertian light sources. In certain example embodiments, this is accomplished by (1) providing an organic-inorganic hybrid material on LEDs (which in certain example embodiments may be a high index of refraction material), (2) enhancing the light scattering ability of the LEDs (e.g., by fractal embossing, patterning, or the like, and/or by providing randomly dispersed elements thereon), and/or (3) improving performance through advanced cooling techniques. In certain example instances, performance enhancements may include, for example, better color production (e.g., in terms of a high CRI), better light production (e.g., in terms of lumens and non-Lambertian lighting), higher internal and/or external efficiency, etc. | 04-12-2012 |
20120156404 | VACUUM INSULATING GLASS UNIT WITH LARGE PUMP-OUT PORT, AND/OR METHOD OF MAKING THE SAME - Certain example embodiments of this invention relate to vacuum insulating glass (VIG) units, and/or methods of making the same. More particularly, certain example embodiments relate to VIG units having large pump-out ports, and/or methods of making the same. In certain example embodiments, a vacuum insulating glass (VIG) unit is provided. First and second spaced-apart glass substrates are provided, and a gap is provided between the spaced-apart substrates. A pump-out port has a size (e.g., diameter) of at least about 30 mm. A cover seals the pump-out port. A getter is in communication with the gap. The pump-out port is sealed using the cover, in making the vacuum insulating glass unit, via a sealing material provided proximate to the cover and/or proximate to the pump-out port. | 06-21-2012 |
20120258244 | WINDOW WITH ANTI-BACTERIAL AND/OR ANTI-FUNGAL FEATURE AND METHOD OF MAKING SAME - Certain example embodiments of this invention relate to a window having anti-fungal/anti-bacterial properties and/or self-cleaning properties, and a method of making the same. In certain example embodiments, a silver based layer is be provided and the layer(s) located thereover (e.g., the zirconium oxide inclusive layer) are designed to permit silver particles to migrate/diffuse to the surface over time to kill bacteria/germs at the surface of the coated article thereby creating an anti-bacterial/anti-fungal effect. In certain example embodiments, silver may also or instead be mixed in with other material as the top layer of the anti-bacterial coating. | 10-11-2012 |
20120293862 | RUGGEDIZED SWITCHABLE GLAZING, AND/OR METHOD OF MAKING THE SAME - A coated article includes a low-E coating supported by a substrate (e.g., glass substrate), the low-E coating including first and second IR reflecting layers comprising silver and/or gold, and at least one UV blocking layer that blocks significant amounts of UV light having a wavelength of from 380-400 nm so that no more than about 20% of light having a wavelength of from 380-400 passes through the low-E coating. The UV blocking layer may be positioned so as to not directly contact the first and second IR reflecting layers. | 11-22-2012 |
20120312693 | DEBONDING AND TRANSFER TECHNIQUES FOR HETERO-EPITAXIALLY GROWN GRAPHENE, AND PRODUCTS INCLUDING THE SAME - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C | 12-13-2012 |
20120317900 | MULTI-FUNCTIONAL PHOTOVOLTAIC SKYLIGHT AND/OR METHODS OF MAKING THE SAME - Certain examples relate to improved solar photovoltaic systems, and/or methods of making the same. Certain improved building-integrated photovoltaic systems may include concentrated photovoltaic skylights having a cylindrical lens array. The skylight may include an insulated glass unit, which may improve the solar heat gain coefficient. The photovoltaic skylight and lens arrays may be used in combination with strip solar cells and lateral displacement tracking systems. Such techniques may advantageously help to reduce cost per watt related, in part, to the potentially reduced amount of semiconductor material to be used for such example embodiments. A photovoltaic skylight may permit diffuse daylight to pass through into an interior of a building so as to provide lighting inside the building, while the strip solar cells absorb the direct sunlight and convert it to electricity. | 12-20-2012 |
20120327024 | ELECTRONIC DEVICES INCLUDING TRANSPARENT CONDUCTIVE COATINGS INCLUDING CARBON NANOTUBES AND NANOWIRE COMPOSITES, AND METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σ | 12-27-2012 |
20130016417 | ELECTROCHROMIC DEVICES, ASSEMBLIES INCORPORATING ELECTROCHROMIC DEVICES, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to electrochromic (EC) devices, assemblies incorporating electrochromic devices, and/or methods of making the same. More particularly, certain example embodiments of this invention relate to improved EC materials, EC device stacks, high-volume manufacturing (HVM) compatible process integration schemes, and/or high-throughput low cost deposition sources, equipment, and factories. | 01-17-2013 |
20130019618 | MULTI-MODE MOISTURE SENSOR AND/OR DEFOGGER, AND RELATED METHODS - In certain example embodiments, moisture sensors, defoggers, etc., and/or related methods, are provided. More particularly, certain example embodiments relate to moisture sensors and/or defoggers that may be used in various applications such as, for example, refrigerator/freezer merchandisers, vehicle windows, building windows, etc. When condensation or moisture is detected, an appropriate action may be taken (e.g., actuating windshield wipers, turning on a defroster, triggering the heating of a merchandiser door or window, etc.). Bayesian approaches optionally may be implemented in certain example embodiments in an attempt to improve moisture detection accuracy. For instance, models of various types of disturbances may be developed and, based on live data and a priori information known about the model, a probability of the model being accurate is calculated. If a threshold value is met, the model may be considered a match and, optionally, a corresponding appropriate action may be taken. | 01-24-2013 |
20130019638 | HEAT TREATABLE COATED ARTICLE WITH DIAMOND-LIKE CARBON (DLC) AND/OR ZIRCONIUM IN COATING - In certain example embodiments, a coated article includes respective layers including hydrogenated diamond-like carbon (DLC) and zirconium nitride before heat treatment (HT). During HT, the hydrogenated DLC acts as a fuel which upon combustion with oxygen produces carbon dioxide and/or water. The high temperature developed during this combustion heats the zirconium nitride to a temperature(s) well above the heat treating temperature, thereby causing the zirconium nitride to be transformed into a new post-HT layer including zirconium oxide that is very scratch resistant and durable. | 01-24-2013 |
20130021775 | HEAT MANAGEMENT SUBSYSTEMS FOR LED LIGHTING SYSTEMS, LED LIGHTING SYSTEMS INCLUDING HEAT MANAGEMENT SUBSYSTEMS, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to improved lighting systems and/or methods of making the same. In certain example embodiments, a lighting system includes a glass substrate with one or more apertures. An LED or other light source is disposed at one end of the aperture such that light from the LED directed through the aperture of the glass substrate exits the opposite end of the aperture. Inner surfaces of the aperture have a mirroring material such as silver to reflect the emitted light from the LED. In certain example embodiments, a remote phosphor article or layer is disposed opposite the LED at the other end of the aperture. In certain example embodiment, a lens is disposed in the aperture, between the remote phosphor article and the LED. | 01-24-2013 |
20130021776 | LED LIGHTING SYSTEMS WITH PHOSPHOR SUBASSEMBLIES, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to improved lighting systems and/or methods of making the same. In certain example embodiments, a lighting system includes a glass substrate with one or more apertures. An LED or other light source is disposed at one end of the aperture such that light from the LED directed through the aperture of the glass substrate exits the opposite end of the aperture. Inner surfaces of the aperture have a mirroring material such as silver to reflect the emitted light from the LED. In certain example embodiments, a remote phosphor article or layer is disposed opposite the LED at the other end of the aperture. In certain example embodiment, a lens is disposed in the aperture, between the remote phosphor article and the LED. | 01-24-2013 |
20130021799 | LED LIGHTING SYSTEMS AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to improved lighting systems and/or methods of making the same. In certain example embodiments, a lighting system includes a glass substrate with one or more apertures. An LED or other light source is disposed at one end of the aperture such that light from the LED directed through the aperture of the glass substrate exits the opposite end of the aperture. Inner surfaces of the aperture have a mirroring material such as silver to reflect the emitted light from the LED. In certain example embodiments, a remote phosphor article or layer is disposed opposite the LED at the other end of the aperture. In certain example embodiment, a lens is disposed in the aperture, between the remote phosphor article and the LED. | 01-24-2013 |
20130021805 | COLLIMATING LENSES FOR LED LIGHTING SYSTEMS, LED LIGHTING SYSTEMS INCLUDING COLLIMATING LENSES, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to improved lighting systems and/or methods of making the same. In certain example embodiments, a lighting system includes a glass substrate with one or more apertures. An LED or other light source is disposed at one end of the aperture such that light from the LED directed through the aperture of the glass substrate exits the opposite end of the aperture. Inner surfaces of the aperture have a mirroring material such as silver to reflect the emitted light from the LED. In certain example embodiments, a remote phosphor article or layer is disposed opposite the LED at the other end of the aperture. In certain example embodiment, a lens is disposed in the aperture, between the remote phosphor article and the LED. | 01-24-2013 |
20130024169 | MOISTURE SENSOR AND/OR DEFOGGER WITH BAYESIAN IMPROVEMENTS, AND RELATED METHODS - In certain example embodiments, moisture sensors, defoggers, etc., and/or related methods, are provided. More particularly, certain example embodiments relate to moisture sensors and/or defoggers that may be used in various applications such as, for example, refrigerator/freezer merchandisers, vehicle windows, building windows, etc. When condensation or moisture is detected, an appropriate action may be taken (e.g., actuating windshield wipers, turning on a defroster, triggering the heating of a merchandiser door or window, etc.). Bayesian approaches optionally may be implemented in certain example embodiments in an attempt to improve moisture detection accuracy. For instance, models of various types of disturbances may be developed and, based on live data and a priori information known about the model, a probability of the model being accurate is calculated. If a threshold value is met, the model may be considered a match and, optionally, a corresponding appropriate action may be taken. | 01-24-2013 |
20130059087 | Method of strengthening glass using plasma torches and/or arc jets, and articles made according to the same - Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li | 03-07-2013 |
20130059160 | Method of strengthening glass by plasma induced ion exchanges, and articles made according to the same - Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li | 03-07-2013 |
20130059717 | Method of strengthening glass by plasma induced ion exchanges in connection with tin baths, and articles made according to the same - Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li | 03-07-2013 |
20130129919 | LIGHT SOURCE WITH HYBRID COATING, DEVICE INCLUDING LIGHT SOURCE WITH HYBRID COATING, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to techniques for improving the performance of Lambertian and non-Lambertian light sources. In certain example embodiments, this is accomplished by (1) providing an organic-inorganic hybrid material on LEDs (which in certain example embodiments may be a high index of refraction material), (2) enhancing the light scattering ability of the LEDs (e.g., by fractal embossing, patterning, or the like, and/or by providing randomly dispersed elements thereon), and/or (3) improving performance through advanced cooling techniques. In certain example instances, performance enhancements may include, for example, better color production (e.g., in terms of a high CRI), better light production (e.g., in terms of lumens and non-Lambertian lighting), higher internal and/or external efficiency, etc. | 05-23-2013 |
20130129944 | HIGH R-VALUE WINDOW UNIT - In certain example embodiments of this invention, a window unit may include a vacuum IG (VIG) unit as an inboard lite and a monolithic lite (e.g., with an optional low-E coating thereon) as an outboard lite. A dead air space may separate the inboard and outboard lites. A highly insulated frame may be used to support the inner and outer lites. The VIG unit may be partially embedded or supported in the insulative frame, so that the insulating frame separates the VIG unit inboard lite from the outboard lite thereby reducing conductivity around the edges of the window unit so that R-value can be increased (and U-value decreased). In certain example embodiments, the total R-value of the window unit is at least about R-8, and more preferably at least about R-10 (compared to the much lower R-values of conventional IG units). | 05-23-2013 |
20130136875 | VACUUM INSULATED GLASS (VIG) UNIT INCLUDING NANO-COMPOSITE PILLARS, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to composite pillar arrangements for VIG units that include both harder and softer materials. The softer materials are located on the outside or extremities of the central, harder pillar material. In certain example embodiments, a high aspect ratio mineral lamellae is separated by an organic “glue” or polymer. When provided around a high strength pillar, the combination of the pillar and such a nano-composite structure may advantageously result in superior strength compared to a monolithic system, e.g., where significant wind loads, thermal stresses, and/or the like are encountered. | 05-30-2013 |
20130260550 | LARGE-AREA TRANSPARENT CONDUCTIVE COATINGS INCLUDING ALLOYED CARBON NANOTUBES AND NANOWIRE COMPOSITES, AND METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σ | 10-03-2013 |
20130273377 | METHOD OF MAKING HEAT TREATED COATED ARTICLE USING TCO AND REMOVABLE PROTECTIVE FILM - A method for making a heat treated (HT) coated article including an electrode, to be used in applications such as windows, electronic devices, or other applications. The method may include heat treating a substrate coated with at least a transparent conductive oxide (TCO) layer and an overlying film. From the TCO outwardly, the overlying film may include any combination of two, three or four of: (i) a gettering and/or doping layer(s); (ii) a stabilizing layer(s); (iii) a release layer(s); and (iv) an oxygen blocking or barrier layer. After HT, the protective film may be entirely or partially removed. Other embodiments relate to the pre-HT coated article, or the post-HT coated article. | 10-17-2013 |
20130309475 | LARGE AREA DEPOSITION AND DOPING OF GRAPHENE, AND PRODUCTS INCLUDING THE SAME - Certain example embodiments of this invention relate to the use of graphene as a transparent conductive coating (TCC). In certain example embodiments, graphene thin films grown on large areas hetero-epitaxially, e.g., on a catalyst thin film, from a hydrocarbon gas (such as, for example, C | 11-21-2013 |
20130320838 | COATED ARTICLES AND/OR DEVICES WITH OPTICAL OUT-COUPLING LAYER STACKS (OCLS), AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to organic light emitting diode (OLED) inclusive devices, and/or methods of making the same. A substrate supports a transparent conductive coating (TCC) based layer, and first and second organic layers disposed thereon. A reflective conductive layer is supported by the organic layers. An out-coupling layer stack (OCLS) interposed between the organic layers and a viewer of the device includes a hybrid organic-inorganic polymer matrix having scatterers dispersed throughout in a manner such that each scatterer is located in the far field of its nearest neighbor. The scatterers are dispersed to have a high Zeta potential, and promote Mie-like scattering of light passing through the OCLS. Mie-like scattering caused by the OCLS may help to frustrate the wave-guiding modes in the glass, e.g., by breaking down the in-phase coherence. | 12-05-2013 |
20130327095 | METHOD OF MAKING HEAT TREATED COATED ARTICLE USING CARBON BASED COATING AND PROTECTIVE FILM - A method of making a heat treated (HT) substantially transparent coated article to be used in shower door applications, window applications, tabletop applications, or any other suitable applications. Certain embodiments relate to a method of making a coated article including heat treating a glass substrate coated with at least layer of or including carbon (e.g., diamond-like carbon (DLC)) and an overlying protective film thereon. The protective film may be of or include both (a) an oxygen blocking or barrier layer, and (b) a release layer of or including zinc oxynitride (e.g., ZnO | 12-12-2013 |
20140017830 | PLANARIZED TCO-BASED ANODE FOR OLED DEVICES, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to organic light emitting diode (OLED)/polymer light emitting diode (PLED) devices, and/or methods of making the same. A first transparent conductive coating (TCC) layer is disposed, directly or indirectly, on a glass substrate. An outermost major surface of the TCC layer is planarized by exposing the outermost major surface thereof to an ion beam. Following said planarizing, the first TCC layer has an arithmetic mean value RMS roughness (Ra) of less than 1.5 nm. A hole transporting layer (HTL) and an electron transporting and emitting layer (ETL) are disposed, directly or indirectly, on the planarized outermost major surface of the first TCC layer. A second TCC layer is disposed, directly or indirectly, on the HTL and the ETL. One or both TCC layers may include ITO. The substrate and/or an optional optical out-coupling layer stack system may be planarized using an ion beam. | 01-16-2014 |
20140084275 | COATED ARTICLES AND/OR DEVICES WITH OPTICAL OUT-COUPLING LAYER STACKS (OCLS), AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to organic light emitting diode (OLED) inclusive devices, and/or methods of making the same. A substrate supports a transparent conductive coating (TCC) based layer, and first and second organic layers disposed thereon. A reflective conductive layer is supported by the organic layers. An out-coupling layer stack (OCLS) interposed between the organic layers and a viewer of the device includes a hybrid organic-inorganic polymer matrix having scatterers dispersed throughout in a manner such that each scatterer is located in the far field of its nearest neighbor. The scatterers are dispersed to have a high Zeta potential, and promote Mie-like scattering of light passing through the OCLS. Mie-like scattering caused by the OCLS may help to frustrate the wave-guiding modes in the glass, e.g., by breaking down the in-phase coherence. | 03-27-2014 |
20140087099 | LOW TEMPERATURE HERMETIC SEALING VIA LASER - A method and apparatus for low temperature laser sealing of bonded articles is disclosed. Hermetic sealing of glass substrates using low temperature sealing techniques that do not adversely affect bulk strength of glass substrates, the environment created between the substrates and/or any components housed within the sealed glass substrates is disclosed. Such low temperature sealing techniques include use of localized laser heating of sealing materials to form a hermetic seal between glass substrates that does not involve heating the entire article to be sealed. | 03-27-2014 |
20140090687 | MULTIFUNCTIONAL STATIC OR SEMI-STATIC PHOTOVOLTAIC SKYLIGHT AND/OR METHODS OF MAKING THE SAME - Improved building-integrated photovoltaic systems according to certain example embodiments may include concentrated photovoltaic skylights or other windows having a cylindrical lens array. The skylight may include an insulated glass unit, which may improve the Solar Heat Gain Coefficient (SHGC). The photovoltaic skylight and lens arrays may be used in combination with strip solar cells. Arrangements that involve lateral displacement tracking systems, or static systems (e.g., that are fixed at one, two, or more predefined positions) are contemplated herein. Such techniques may advantageously help to reduce cost per watt related, in part, to the potentially reduced amount of semiconductor material to be used for such example embodiments. A photovoltaic skylight may permit diffuse daylight to pass through into an interior of a building so as to provide lighting inside the building, while the strip solar cells absorb the direct sunlight and convert it to electricity, providing for SHGC tuning. | 04-03-2014 |
20140096893 | METHODS OF MAKING LAMINATED LED ARRAY AND/OR PRODUCTS INCLUDING THE SAME - In certain example embodiments, light emitting diodes (LEDs) may be disposed on a deformable and flexible backbone sheet and chained together in an array, e.g., via flexible wiggle wires. Such flexible wiggle wires may also provide an electrical connection to an external power source. An optical out-coupling layer stack (OCLS) system may help serve as an index matching layer, heat sink, étendue conserver, etc. The backbone may be formed to a shape tailored to its ultimate application. Applications may include, for example, automotive (such as Center High Mounted Stop Lamp (CHMSL) applications), lighting, signage, and/or other applications. In an example CHMSL application, the deformable sheet with the LED array thereon has a step, sinusoidal, or other shape matched to the angle and/or curvature of the glass such that the LEDs produce light primarily in a direction parallel to a surface on which a vehicle is located. | 04-10-2014 |
20140098553 | EMBEDDED LED ASSEMBLY WITH OPTIONAL BEAM STEERING OPTICAL ELEMENT, AND ASSOCIATED PRODUCTS, AND/OR METHODS - Certain example embodiments of this invention relate to laminated LED arrays, products including such laminated LED arrays, and/or methods of making the same. In certain example embodiments, LEDs may be disposed on a flexible sheet and chained together in an array. An optional beam steering optical element may be used to help redirect the light, even when the LED arrays are disposed on a curved surface and/or at an angle that is not parallel to the intended observer's line of sight. Doing so advantageously makes it possible to ensure that a substantial portion of the axis of the light produced by embedded LEDs coincides with the front-to-rear axis of a vehicle, while still allowing for different angles of the back light for different implementations. Such techniques advantageously may be used in connection with Center High Mount Stop Lamps (CHMSLs); tail lights for cars, trucks, and other vehicles; and/or the like. | 04-10-2014 |
20140098557 | LAMINATED LED ARRAY AND/OR PRODUCTS INCLUDING THE SAME - In certain example embodiments, light emitting diodes (LEDs) may be disposed on a deformable and flexible backbone sheet and chained together in an array, e.g., via flexible wiggle wires. Such flexible wiggle wires may also provide an electrical connection to an external power source. An optical out-coupling layer stack (OCLS) system may help serve as an index matching layer, heat sink, étendue conserver, etc. The backbone may be formed to a shape tailored to its ultimate application. Applications may include, for example, automotive (such as Center High Mounted Stop Lamp (CHMSL) applications), lighting, signage, and/or other applications. In an example CHMSL application, the deformable sheet with the LED array thereon has a step, sinusoidal, or other shape matched to the angle and/or curvature of the glass such that the LEDs produce light primarily in a direction parallel to a surface on which a vehicle is located. | 04-10-2014 |
20140111846 | ELECTROCHROMIC DEVICES, ASSEMBLIES INCORPORATING ELECTROCHROMIC DEVICES, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to electrochromic (EC) devices, assemblies incorporating electrochromic devices, and/or methods of making the same. More particularly, certain example embodiments of this invention relate to improved EC materials, EC device stacks, high-volume manufacturing (HVM) compatible process integration schemes, and/or high-throughput low cost deposition sources, equipment, and factories. | 04-24-2014 |
20140138696 | POLYCRYSTALLINE SILICON THICK FILMS FOR PHOTOVOLTAIC DEVICES OR THE LIKE, AND METHODS OF MAKING SAME - A method of manufacturing a polycrystalline silicon film includes: depositing a catalyst layer including nickel and depositing nickel nanoparticles on a substrate; exposing the catalyst layer and the nanoparticles to at least silane gas; and heat treating the substrate coated with the catalyst layer and the nanoparticles during at least part of the exposing to silane gas in growing a silicon based film on the substrate. | 05-22-2014 |
20140150497 | METHOD OF MAKING HEAT TREATED COATED ARTICLE WITH CARBON BASED COATING AND PROTECTIVE FILM - A method of making a heat treated (HT) or heat treatable coated article. A method of making a coated article includes a step of heat treating a glass substrate coated with at least layer of or including carbon (e.g., diamond-like carbon (DLC)) and an overlying protective film thereon. In certain example embodiments, the protective film may be of or include both (a) an oxygen blocking or barrier layer, and (b) a release layer of or including zinc oxide. Treating the zinc oxide inclusive release layer with plasma including oxygen (e.g., via ion beam treatment) improves thermal stability and/or quality of the product. Following and/or during heat treatment (e.g., thermal tempering, or the like) the protective film may be entirely or partially removed. | 06-05-2014 |
20140154435 | VACUUM INSULATED GLASS (VIG) UNIT INCLUDING NANO-COMPOSITE PILLARS, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments of this invention relate to composite pillar arrangements for VIG units that include both harder and softer materials. The softer materials are located on the outside or extremities of the central, harder pillar material. In certain example embodiments, a high aspect ratio mineral lamellae is separated by an organic “glue” or polymer. When provided around a high strength pillar, the combination of the pillar and such a nano-composite structure may advantageously result in superior strength compared to a monolithic system, e.g., where significant wind loads, thermal stresses, and/or the like are encountered. | 06-05-2014 |
20140237917 | WINDOW FOR ATTENUATING RF AND IR ELECTROMAGNETIC SIGNALS - Windows for attenuating radio frequency (RF) and infrared (IR) electromagnetic signals, so as to prevent or reduce such signals from emanating from secure facilities (e.g., government and/or military facilities). Example embodiments relate to a window including at least first and second glass substrates, at least first and second low-emissivity (low-E) coatings for blocking at least some IR and RF signals, and at least one transparent conductive oxide (TCO) inclusive coating for blocking at least some RF signals. The TCO inclusive coating may include a layer of or including indium-tin-oxide (ITO) located between at least first and second dielectric layers. | 08-28-2014 |
20140239333 | LED LIGHTING SYSTEMS WITH PHOSPHOR SUBASSEMBLIES, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to improved lighting systems and/or methods of making the same. In certain example embodiments, a lighting system includes a glass substrate with one or more apertures. An LED or other light source is disposed at one end of the aperture such that light from the LED directed through the aperture of the glass substrate exits the opposite end of the aperture. Inner surfaces of the aperture have a mirroring material such as silver to reflect the emitted light from the LED. In certain example embodiments, a remote phosphor article or layer is disposed opposite the LED at the other end of the aperture. In certain example embodiment, a lens is disposed in the aperture, between the remote phosphor article and the LED. | 08-28-2014 |
20140261998 | METHODS FOR LOW-TEMPERATURE GRAPHENE PRECIPITATION ONTO GLASS, AND ASSOCIATED ARTICLES/DEVICES - Certain example embodiments relate to methods for large area graphene precipitation onto glass, and associated articles/devices. For example, coated articles including graphene-inclusive films on substrates, and/or methods of making the same, are provided. A metal-inclusive catalyst layer (e.g., of or including Ni and/or the like) is disposed on the substrate. The substrate with the catalyst layer thereon is exposed to a precursor gas and a strain-inducing gas at a temperature of no more than 350-600 degrees C. for 10s or 100s of minutes. Graphene is formed and/or allowed to form both over and contacting the catalyst layer, and between the substrate and the catalyst layer, in making the coated article. The catalyst layer, together with graphene formed thereon, is removed, e.g., through excessive strain introduced into the catalyst layer as associated with the graphene formation. Products including such articles, and/or methods of making the same, also are contemplated. | 09-18-2014 |
20140264293 | COATED ARTICLE AND/OR DEVICE WITH OPTICAL OUT-COUPLING LAYER STACK (OCLS) INCLUDING VACUUM DEPOSITED INDEX MATCH LAYER OVER SCATTERING MATRIX, AND/OR ASSOCIATED METHODS - Certain example embodiments relate to light emitting diode (e.g., OLED and/or PLED) inclusive devices, and/or methods of making the same. Certain example embodiments incorporate an optical out-coupling layer stack (OCLS) structure that includes a vacuum deposited index matching layer (imL) provided over an organo-metallic scattering matrix layer. The imL may be a silicon-inclusive layer and may include, for example, vacuum deposited SiOxNy. The OCLS including scattering micro-particles, the imL, and the anode may be designed such that the device extraction efficiency is significantly improved, e.g., by efficiently coupling the light generated in the organic layers of the devices and extracted through the glass substrate. In certain example embodiments, the refractive index of the ITO, SiOxNy index matching layer, OCLS scattering layer and the glass substrate may be provided in decreasing order. | 09-18-2014 |
20140272314 | COATED ARTICLE INCLUDING BROADBAND AND OMNIDIRECTIONAL ANTI-REFLECTIVE TRANSPARENT COATING, AND/OR METHOD OF MAKING THE SAME - Certain example embodiments involve the production of a broadband and at least quasi-omnidirectional antireflective (AR) coating. The concept underlying certain example embodiments is based on well-established and applied mathematical tools, and involves the creation of nanostructures that facilitate these and/or other features. Finite element (FDTD) simulations are performed to validate the concept and develop design guidelines for the nanostructures, e.g., with a view towards improving visible transmission. Certain example embodiments provide such structures on or in glass, and other materials (e.g., semiconductor materials that are used to convert light or EM waves to electricity) alternatively or additionally may have such structures formed directly or indirectly thereon. | 09-18-2014 |
20140308523 | METHODS FOR DIRECT PRODUCTION OF GRAPHENE ON DIELECTRIC SUBSTRATES, AND ASSOCIATED ARTICLES/DEVICES - Certain example embodiments of this invention relate to methods for large area graphene precipitation onto glass, and associated articles/devices. For example, a coated article including a graphene-inclusive film on a substrate, and/or a method of making the same, is provided. A metal-inclusive catalyst layer (e.g., of or including Ni and/or the like) is disposed on the substrate. The substrate with the catalyst layer thereon is exposed to a precursor gas and a strain-inducing gas at a temperature of no more than 900 degrees C. Graphene is formed and/or allowed to form both over and contacting the catalyst layer, and between the substrate and the catalyst layer, in making the coated article. The catalyst layer, together with graphene formed thereon, is removed, e.g., through excessive strain introduced into the catalyst layer as associated with the graphene formation. Products including such articles, and/or methods of making the same, also are contemplated herein. | 10-16-2014 |