A glass container has a container main body made of glass and a coating film formed on a surface of the container main body. The coating film is made of tin oxide or titanium oxide, and the film thickness of the coating film ranges from 40 nm to 50 nm. In the depth profile obtained by X-ray photoelectron spectroscopy (XPS) analysis, an atomic percentage of sodium at a point where a tin or titanium profile intersects a silicon profile is 2% or less.

The invention relates to a UV-curing primer composition for the coating of glass, in particular glass hollow bodies, wherein the primer composition, in addition to reactive oligomers and/or reactive monomers and at least one photoinitiator, comprises at least one organosilane, which possesses at least one acetoxy radical, in particular 1 to 4 acetoxy radicals.

The invention further relates to use of at least one organosilane for providing a UV-cured primer layer on glass and/or an ink layer on glass, a method for coating glass, a substrate coated with a UV-cured primer layer, an ink and a kit.

A dielectric mirror includes a coating having alternating high and low index layers. The mirror coating has no metallic reflective layer of Al or Ag in certain example embodiments, and may have film side and/or glass side visible reflection of from about 50-90% (more preferably from about 60-80% and most preferably from about 65-75%) and visible transmission of from about 10-50% (more preferably from about 10-40% or 20-40%) in certain example embodiments.

A coated glass article includes a coating formed over a glass substrate. The coating comprises an optional base layer of an oxide of silicon, a first coating layer of an oxide of titanium, niobium or chromium, a second coating layer of an oxide of silicon, and a third coating layer of an oxide of tin. The coated glass article exhibits a Tvis of 40%-55% and an Rf of 40%-60%. A video display can be mounted behind the coated glass article, such that when the video display is in operation it is visible through the coated glass article and when the video display is not in operation is it concealed by the coated glass article.

A dielectric mirror includes a coating having alternating high and low index layers. The mirror coating has no metallic reflective layer of Al or Ag in certain example embodiments, and may have film side and/or glass side visible reflection of from about 50-90% (more preferably from about 60-80% and most preferably from about 65-75%) and visible transmission of from about 10-50% (more preferably from about 10-40% or 20-40%) in certain example embodiments.

A method of forming an optical coating, including the steps: depositing a buffer layer on a glass substrate via plasma deposition at a first plasma bias voltage; and depositing at least one layer of an optical coating on the buffer layer via plasma deposition, the deposition of the optical coating carried out at a second plasma bias voltage.

A method of manufacturing a coated glass pane comprising the following steps in sequence a) providing a glass substrate, b) depositing by chemical vapour deposition (CVD) at least one CVD coating on a surface of the glass substrate using titanium tetraisopropoxide (TTIP) as a precursor, and c) depositing by physical vapour deposition (PVD) at least one PVD coating on said at least one CVD coating.

A process for depositing a coating on a glass substrate includes co-sputtered simultaneously by a plasma, in one and the same chamber of the vacuum deposition device, a first constituent made of a material consisting of an oxide, a nitride or an oxynitride of a first element and a second constituent consisting of the metallic form of a second element. The process also includes introducing a hydride, a halide or an organic compound of a third element, different than the first element, into the plasma, to recover the substrate covered with the coating comprising the first, second and third elements at the outlet of the device. The coating consists of metal nanoparticles of the second element dispersed in an inorganic matrix of the first and third elements. The coating displays a plasmon absorption peak in the visible region.

Apparatus is described for coating deposition, particularly by chemical vapour deposition, on three dimensional glass articles such as bottles. The apparatus lends itself to incorporation in plant for a continuous production process for glass containers.

Various embodiments herein relate to electrochromic windows that are bird friendly, as well as methods and apparatus for forming such windows. Bird friendly windows include one or more elements that make the window visible to birds so that the birds recognize that they cannot fly through the window. Bird friendly windows can be used to minimize avian-window collisions, and therefore minimize avian deaths resulting from such collisions. In various embodiments, a window may be patterned such that the pattern is visible to birds. In these or other cases, the window may be made hazy, where the haze is visible to birds. The pattern and/or haze may be visible at wavelengths that fall in UV, and minimally noticeable (if at all) in wavelengths within the spectrum visible by humans.