In one aspect, the present invention is directed to a coating composition. The coating composition comprises photocatalytic particles and an alkali metal silicate binder comprising an alkoxysilane. In another aspect, the present invention is directed to a coated article. The coated article has a photocatalytic coating with improved durability on its external surface that is formed from the aforesaid coating composition.

In one aspect, the present invention is directed to a coating composition. The coating composition comprises photocatalytic particles and an alkali metal silicate binder comprising an alkoxysilane. In another aspect, the present invention is directed to a coated article. The coated article has a photocatalytic coating with improved durability on its external surface that is formed from the aforesaid coating composition.

An anticorrosive composition and the use of the composition for imparting anticorrosive properties to a material such as a mineral wool product.

A surface protection compound, in particular a compound for the non-flammable water-resistant non-hazardous biocidal surface protection of wood, or paper, or textile, or plastic, which contains an aqueous silicate solution which contains 93 to 98 wt % of an aqueous solution of potassium silicate, 1 to 6 wt % of aluminium hydroxide and, 0.5 to 1.5 wt % of stabiliser of the aqueous solution of potassium silicate.

A surface protection compound, in particular a compound for the non-flammable water-resistant non-hazardous biocidal surface protection of wood, or paper, or textile, or plastic, which contains an aqueous silicate solution which contains 93 to 98 wt % of an aqueous solution of potassium silicate, 1 to 6 wt % of aluminium hydroxide and, 0.5 to 1.5 wt % of stabiliser of the aqueous solution of potassium silicate.

The invention provides a transparent gas barrier polymer-glass-polymer laminated film comprising a first polymeric film substrate; a silicate glass layer, comprising silica and a salt of a monovalent cation other than Lithium, in combination with at least one additive selected from organo-silanes or an epoxy silane precursor, laminated onto said first polymeric film substrate; and a second polymeric film laminated on said glass layer; wherein the oxygen transmission rate through the laminated polymer-glass-polymer film is lower than 0.2 cc/m.sup.2/day and methods for the production thereof.

The invention provides a transparent gas barrier polymer-glass-polymer laminated film comprising a first polymeric film substrate; a silicate glass layer, comprising silica and a salt of a monovalent cation other than Lithium, in combination with at least one additive selected from organo-silanes or an epoxy silane precursor, laminated onto said first polymeric film substrate; and a second polymeric film laminated on said glass layer; wherein the oxygen transmission rate through the laminated polymer-glass-polymer film is lower than 0.2 cc/m.sup.2/day and methods for the production thereof.

A coating system may be configured to be applied to an aluminum-magnesium substrate of an object. The coating system may include a primer configured to reduce the corrosion rate of the aluminum-magnesium substrate and a topcoat configured to resist water and improve solar reflectance of the coating system. The primer may include a silicate and a first additive configured to increase corrosion resistance of the coating system The topcoat may include a siloxane and a second additive configured to reduce solar absorptance of the coating system.

A coating system may be configured to be applied to an aluminum-magnesium substrate of an object. The coating system may include a primer configured to reduce the corrosion rate of the aluminum-magnesium substrate and a topcoat configured to resist water and improve solar reflectance of the coating system. The primer may include a silicate and a first additive configured to increase corrosion resistance of the coating system The topcoat may include a siloxane and a second additive configured to reduce solar absorptance of the coating system.

A nano-inorganic composition according to an embodiment of the present disclosure includes and is not limited to excellent mechanical characteristics such as surface hardness and wear characteristics, chemical stability such as water resistance, acid resistance, and alkali resistance, and excellent thermal stability, as the composition is comprised of inorganic materials. In addition, the nano-inorganic composition may be controlled to have super-hydrophilic, hydrophilic, or hydrophobic properties, depending on coating methods. The nano-inorganic composition also has excellent surface contamination resistance and easy-clean properties depending on the characteristics of the thin film coating. Also, the nano-inorganic composition has excellent optical properties such as light transmittance and light reflectance.