The present invention includes a method of creating electrical air gap low loss low cost RF mechanically and thermally stabilized interdigitated resonate filter in photo definable glass ceramic substrate. Where a ground plane may be used to adjacent to or below the RF filter in order to prevent parasitic electronic signals, RF signals, differential voltage build up and floating grounds from disrupting and degrading the performance of isolated electronic devices by the fabrication of electrical isolation and ground plane structures on a photo-definable glass substrate.

A device, in particular a household device, includes a device housing (1), wherein the device housing (1) is at least partially made of glass (2a). The glass (2a) has a glass outer surface (2h) and a glass inner surface (2g). The device housing (1) is adapted such that a permanent magnet (7) magnetically adheres to the glass outer surface (2h).

A transparent substrate provided with a multi-layered coating is provided, the coating including the following in an order from the substrate: a first dielectric film including one or more dielectric layers, a first metallic protective layer, a first metallic layer having an infrared (IR) reflection characteristic, a second metallic protective layer, a second dielectric film including two or more dielectric layers, a third metallic protective layer, a second metallic layer having an infrared (IR) reflection characteristic, a fourth metallic protective layer, and a third dielectric film D3 including one or more dielectric layers, wherein the dielectric layer includes a metal oxide, a metal nitride, or a metal oxynitride, the metallic layer is silver (Ag) or a silver (Ag)-containing metal alloy, a normal emissivity is 2.0% or less, and a difference between a coated surface reflectance and an uncoated surface reflectance is 21% or more.

A method of making a functionalized device for amplification or multiplication of electrons includes making a glass channel array by a laser-induced deep etching process including (1) applying laser pulses to a glass substrate to form an array of modified areas, the glass substrate having a thickness less than 5 mm, the modified areas extending between two surfaces of the glass substrate, and (2) subsequently performing an etching process to selectively remove the modified areas and thereby form an array of through channels. Subsequently, one or more materials are deposited on the glass channel array to form the functionalized device.

A substrate coated on one of its faces with a stack of thin layers having reflection properties in the infrared and/or in solar radiation, including two metallic functional layers, in particular on the basis of silver. Each of the metallic functional layers is disposed between two dielectric coatings. The coating includes at least two absorbent layers which absorb solar radiation in the visible part of the spectrum, which is disposed at least in two different dielectric coatings.

In one example, a method to manufacture a magnetic sensor, comprises providing an electrolyte solution, submersing a substrate in the electrolyte solution, submersing a plurality of ingots in the electrolyte solution, wherein the ingots comprises a metal that is magnetic, and depositing the metal on the substrate by applying a voltage between the metal ingot and the substrate to result in magnetic alloy layer on the substrate. Other examples and related methods are also disclosed herein.

The invention provides transparent conductive coatings based on indium tin oxide. In some embodiments, the coating includes two indium tin oxide films and two nickel alloy films. Also provided are laminated glass assemblies that include such coatings.

A heating device equipped with a chamber defining a cavity, includes a door or wall incorporating a multiple glazing, the glazing including at least one transparent substrate coated on each face with a stack of thin layers, namely: on a first face, turned toward the cavity, a first stack that reflects heat essentially by virtue of one or more functional layers based on indium tin oxide; and on the other face, turned toward the exterior of the device, a second stack that reflects heat essentially by virtue of one or more functional layers based on a metal chosen from gold or silver.

A transparent substrate provided with a multi-layered coating is provided, the coating including the following in an order from the substrate: a first dielectric film including one or more dielectric layers, a first metallic protective layer, a first metallic layer having an infrared (IR) reflection characteristic, a second metallic protective layer, a second dielectric film including two or more dielectric layers, a third metallic protective layer, a second metallic layer having an infrared (IR) reflection characteristic, a fourth metallic protective layer, and a third dielectric film D3 including one or more dielectric layers, wherein the dielectric layer includes a metal oxide, a metal nitride, or a metal oxynitride, the metallic layer is silver (Ag) or a silver (Ag)-containing metal alloy, a normal emissivity is 2.0% or less, and a difference between a coated surface reflectance and an uncoated surface reflectance is 21% or more.

The present invention includes a method of creating electrical air gap low loss low cost RF mechanically and thermally stabilized interdigitated resonate filter in photo definable glass ceramic substrate. Where a ground plane may be used to adjacent to or below the RF filter in order to prevent parasitic electronic signals, RF signals, differential voltage build up and floating grounds from disrupting and degrading the performance of isolated electronic devices by the fabrication of electrical isolation and ground plane structures on a photo-definable glass substrate.