A decal assembly includes a film, a power source including a positive contact and a negative contact, a light having a positive terminal and a negative terminal, and a layer of electrically conductive ink applied to the film, the layer of electrically conductive ink forming a line to connect the positive contact of the power source to the positive terminal of the light, and to connect the negative contact of the power source to the negative terminal of the light.

An artistic presentation in the form of a shadow box is disclosed where the shadow box has been augmented with various dynamic visual effects. One such dynamic visual effect is the movement of water across the shadow box, simulating rain droplets, waterfall, sheets of water, or aerosolized water such as fog or mist. When combined with various lighting effects, the combined dynamic visual presentation permits a constantly changing visual appearance that can recycle and go on indefinitely.

A system includes a view screen with polarized output. The view screen may include a projected view screen or writing-surface view screen. A window capable of blocking the polarized output at least in part cloaks the view screen to frustrate viewing of the view screen through the window. In some cases, the window includes an array of panels capable of blocking multiple polarizations. The array may disrupt multiple different polarized view screen outputs while maintaining transparency to unpolarized light. In some cases, the window capable of blocking polarized output may be paired with view screen cover that converts view screen output in an unblocked polarization to one of the one or more polarizations blocked by the window.

A composite glass comprises two glass and/or plastic plates and an intermediate foil arranged between the glass and/or plastic plates. The composite glass, due to the intermediate foil, is configured differently in a side-dependent manner, by appearing to a viewer more transparent from an inner side than from an outer side. The composite glass, due to the intermediate foil, appears to the viewer different in a viewing angle-dependent manner from the outer side.

In some aspects, graphic layers for depicting a visible representation of an image along a surface of a photovoltaic module can include a plurality of substantially opaque isolated regions; and at least one substantially transparent contiguous region surrounding the substantially opaque isolated regions, wherein an outer surface of the at least one substantially transparent contiguous region comprises a matte surface finish.

In some aspects, graphic layers for depicting a visible representation of an image along a surface of a photovoltaic module can include a plurality of substantially opaque isolated regions; and at least one substantially transparent contiguous region surrounding the substantially opaque isolated regions, wherein an outer surface of the at least one substantially transparent contiguous region comprises a matte surface finish.

A method for producing a coating on a surface of a coated or uncoated spectacle lens includes: applying a masking on a partial region of the surface of the coated or uncoated spectacle lens, applying at least one layer on the surface, and removing the masking and the at least one layer applied on the masking from the partial region of the surface. The masking is applied with a matrix printing method. A spectacle lens produced by the method is also disclosed.

A method for producing a coating on a surface of a coated or uncoated spectacle lens includes: applying a masking on a partial region of the surface of the coated or uncoated spectacle lens, applying at least one layer on the surface, and removing the masking and the at least one layer applied on the masking from the partial region of the surface. The masking is applied with a matrix printing method. A spectacle lens produced by the method is also disclosed.

A composite glass comprises two glass and/or plastic plates and an intermediate foil arranged between the glass and/or plastic plates. The composite glass, due to the intermediate foil, is configured differently in a side-dependent manner, by appearing to a viewer more transparent from an inner side than from an outer side. The composite glass, due to the intermediate foil, appears to the viewer different in a viewing angle-dependent manner from the outer side.

A trim for an object and its method of manufacture involve providing a transparent or translucent substrate defining a top surface, applying an opaque layer above the top surface of the substrate, the opaque layer defining one or more apertures through which light can pass, and applying one or more translucent metallic-looking layers above a top surface of the opaque layer. In some implementations, the trim is a selectively illuminable trim whereby a light source is arranged beneath a bottom surface of the substrate, the light source being configured to output light through the substrate, the one or more apertures defined by the opaque layer, and the one or more metallic-looking layers.