Abstract: A glazing can be used as a constituent element of a heating device or of a fireproof door. The glazing includes a transparent substrate coated with a stack of thin layers including at least one silver-based functional metal layer and an upper protective layer based on zirconium titanium oxide.

Abstract: A device for generating a display image on a composite glass pane is described. The device has: a composite glass pane with a first pane and a second pane, which are connected to each other via an intermediate layer that contains at least one luminescent pigment; a laser projector, which contains at least one laser and an optical system for deflecting a radiation of the laser, the radiation being directed within a region of the composite glass pane; a photodetector, which detects luminescent radiation of the luminescent pigment; and a control unit, which electronically connects the photodetector and the laser projector.

Abstract: A glazing can be used as a constituent element of a heating device or of a fireproof door. The glazing includes a transparent substrate coated with a stack of thin layers including at least one silver-based functional metal layer and an upper protective layer based on zirconium titanium oxide.

Abstract: An electrically conductive support for a glazing unit having liquid crystal scattering properties may include a multilayer of thin films. In one example, the thin films include an electrode comprising a TCO film, a silicon-nitride-based first barrier film having a thickness e1 of at least 5 nm, and a silicon-oxide-based second barrier film having a thickness e2 of at least 30 nm. The thickness e1 may be smaller than or equal to e2 and/or smaller than 80 nm. Further, the cumulative thickness of the first and second barrier films may be larger than or equal to 50 nm and smaller than 150 nm.

Abstract: The present invention relates to an electrically conductive support for a liquid-crystal-comprising glazing unit (100), comprising a multilayer (3) with, in this order: an electrode comprising a film, called the TCO film, based on transparent electrically conductive oxide; a silicon-nitride-based first barrier film having a thickness e1 of at least 5 nm; and a silicon-oxide-based second barrier film having a thickness e2 of at least 30 nm; the thickness e1 is smaller than or equal to e2 and/or e1 is smaller than 80 nm, and the cumulative thickness eb of the first and second barrier films is larger than or equal to 50 nm and smaller than 150 nm.

Abstract: The subject of the invention is a process for manufacturing an organic light-emitting diode device comprising at least one electrode based on an electrically conductive thin-film multilayer deposited on a substrate, in which the deposition of said multilayer comprises the following steps: a thin-film multilayer comprising at least one thin silver film between at least two thin films is deposited on said at least one face of said substrate; and the at least one coated face is heat treated using at least one source of laser radiation emitted at at least one wavelength lying between 500 and 2000 nm so that the sheet resistance of the multilayer decreases by at least 5%.

Abstract: A device for generating a display image on a composite glass pane is described. The device has: a composite glass pane with a first pane and a second pane, which are connected to each other via an intermediate layer that contains at least one luminescent pigment; a laser projector, which contains at least one laser and an optical system for deflecting a radiation of the laser, the radiation being directed within a region of the composite glass pane; a photodetector, which detects luminescent radiation of the luminescent pigment; and a control unit, which electronically connects the photodetector and the laser projector.

Abstract: The subject of the invention is a process for manufacturing an organic light-emitting diode device comprising at least one electrode based on an electrically conductive thin-film multilayer deposited on a substrate, in which the deposition of said multilayer comprises the following steps: a thin-film multilayer comprising at least one thin silver film between at least two thin films is deposited on said at least one face of said substrate; and the at least one coated face is heat treated using at least one source of laser radiation emitted at at least one wavelength lying between 500 and 2000 nm so that the sheet resistance of the multilayer decreases by at least 5%.