A coated article comprising includes a substrate comprising a first surface and second surface opposite the first surface and a coating applied over the surface. The coating includes: a first dielectric layer over at least a portion of the surface; a first metallic layer over at least a portion of the first dielectric layer; a second dielectric layer over at least a portion of the first metallic layer; a second metallic layer over at least a portion of the second dielectric layer; a third dielectric layer over at least a portion of the second metallic layer; a third metallic layer over at least a portion of the third dielectric layer; a fourth dielectric layer over at least a portion of the third metallic layer; an optional fourth metallic layer over at least a portion of the fourth dielectric layer; an optional fifth dielectric layer over at least a portion of the fourth metallic layer; and an outermost protective layer formed over at least a portion of the fourth or fifth dielectric layer. The coated article has a total combined thickness of the metallic layers is at least 10 nanometers, and no more than 60 nanometers.

The present document discloses a glazing in the form of a window glass or vehicle glass which comprises a transparent substrate, and a coating. The coating comprises, in order outward from the transparent substrate, an optional diffusion barrier layer, a first anti-reflective layer, an optional first seed layer, a first functional metal layer, at least one optional first blocker layer, a second anti-reflective layer, an optional second seed layer, a second functional metal layer, at least one optional second blocker layer, a third anti-reflective layer, and an optional top layer, wherein at least one of the first functional metal layer and the second functional metal layer comprises a Ag alloy consisting essentially of Ag and Al.

A coated article includes a substrate and a coating applied over at least a portion of the substrate. The coating includes at least one metallic layer formed from one or more silver compounds doped with at least one metal selected from Groups 3 to 15 of the periodic table of the elements. Also disclosed are capsules that can absorb electromagnetic energy as well as a process of forming an antimony-doped tin oxide coating layer.