A methylsilicic acid hydrogel is produced by reacting a solution of sodium methyl siliconate with a gaseous acid agent. The resulting product is vacuumised to remove residual gas, and washed with water. A significant OH-group content in the hydrogel, which results from bubbling the gaseous acid agent through the solution of sodium methyl siliconate, makes it possible to increase the selectivity of the adsorption properties when the hydrogel is used in medicine and veterinary science.

A methylsilicic acid hydrogel is produced by reacting a solution of sodium methyl siliconate with a gaseous acid agent. The resulting product is vacuumised to remove residual gas, and washed with water. A significant OH-group content in the hydrogel, which results from bubbling the gaseous acid agent through the solution of sodium methyl siliconate, makes it possible to increase the selectivity of the adsorption properties when the hydrogel is used in medicine and veterinary science.

The invention pertains to certain fluoropolymer-based hybrid organic/inorganic composites, to polymer electrolytes obtained therefrom and to use of said polymer electrolytes in electrochemical devices.

A method of producing a silica-based superhydrophilic film. A coating formulation is provided, where the coating formulation includes an alkali metal silicate having a substantial portion of water removed therefrom, where the alkali metal silicate has a formula of M.sub.2O.Math.nSiO.sub.2, and where M represents an alkali metal and n is a positive real number greater than zero. Furthermore, the coating formulation and an alcohol including a curing agent are mixed, where the curing agent includes an acid or an alkaline earth metal halide. Additionally, the coating formulation is dried to form the silica-based superhydrophilic film. Furthermore, a silica-based superhydrophilic film is produced according to such a method, where the silica-based superhydrophilic film includes an amine stabilizer.

A method of producing a silica-based superhydrophilic film. A coating formulation is provided, where the coating formulation includes an alkali metal silicate having a substantial portion of water removed therefrom, where the alkali metal silicate has a formula of M.sub.2O.Math.nSiO.sub.2, and where M represents an alkali metal and n is a positive real number greater than zero. Furthermore, the coating formulation and an alcohol including a curing agent are mixed, where the curing agent includes an acid or an alkaline earth metal halide. Additionally, the coating formulation is dried to form the silica-based superhydrophilic film. Furthermore, a silica-based superhydrophilic film is produced according to such a method, where the silica-based superhydrophilic film includes an amine stabilizer.

Oil-in-water emulsions containing (i) 100 parts by weight of polyorganosiloxanes bearing aminoalkyl groups, liquid at 20° C., (ii) protonating agent, (iii) 1 to 80 parts by weight of silicate compound, (iv) water, (v) at most 5 parts by weight emulsifier and (vi) at least 5 parts by weight of an organic solvent selected from monoalcohols of the formula IX

R.sup.11—OH  (IX),

and dialcohol monoethers of the formula X

R.sup.12O—R.sup.13—OR.sup.14  (X),

with the proviso that the emulsion comprises at most 10 parts by weight of a di-, tri- or oligoglycol ether, are useful for treating substrates.

An organosilicon antimicrobial solution, an organosilicon antimicrobial agent, an antimicrobial glass, a preparation method therefor, and use thereof. The organosilicon antimicrobial solution comprises, in percentage by mass: 30% to 65% of an organosilicon quaternary ammonium salt; 10% to 40% of ethyl orthosilicate; 10% to 40% of a double bond-containing organosilicon; 5% to 20% of an epoxy group-containing organosilicon; 5% to 20% of methyltrimethoxysilane; and 0.1% to 3% of an organotin catalyst. The organosilicon quaternary ammonium salt is selected from at least one of methyldiethoxysilane quaternary ammonium salt, N,N-dimethyl-N-octadecylaminopropyltrimethoxysilane quaternary ammonium salt, (trimethoxysilylpropyl)octadecyldimethylammonium chloride and 3-(trimethoxysilyl)propyldimethyldodecylammonium chloride. An antimicrobial glass prepared by the organosilicon antimicrobial solution above has strong versatility and small influence on the light transmittance of the glass.

An organosilicon antimicrobial solution, an organosilicon antimicrobial agent, an antimicrobial glass, a preparation method therefor, and use thereof. The organosilicon antimicrobial solution comprises, in percentage by mass: 30% to 65% of an organosilicon quaternary ammonium salt; 10% to 40% of ethyl orthosilicate; 10% to 40% of a double bond-containing organosilicon; 5% to 20% of an epoxy group-containing organosilicon; 5% to 20% of methyltrimethoxysilane; and 0.1% to 3% of an organotin catalyst. The organosilicon quaternary ammonium salt is selected from at least one of methyldiethoxysilane quaternary ammonium salt, N,N-dimethyl-N-octadecylaminopropyltrimethoxysilane quaternary ammonium salt, (trimethoxysilylpropyl)octadecyldimethylammonium chloride and 3-(trimethoxysilyl)propyldimethyldodecylammonium chloride. An antimicrobial glass prepared by the organosilicon antimicrobial solution above has strong versatility and small influence on the light transmittance of the glass.

An aqueous dispersion of a silicone pressure sensitive adhesive base can be combined with a curing agent and cured to form a silicone pressure sensitive adhesive. The aqueous dispersion of the silicone pressure sensitive adhesive base includes a bis-hydroxyl-terminated polydiorganosiloxane; a polyorganosilicate resin; cumene; a surfactant; and water. A curing agent such as a peroxide compound or an aminosilane may be combined with the aqueous disperison of the silicone pressure sensitive adhesive base to form a silicone pressure sensitive adhesive composition. A pressure sensitive adhesive article may be formed by a method including coating a surface of a substrate with the silicone pressure sensitive adhesive composition, removing water, and curing the silicon pressure sensitive adhesive composition to form a silicone pressure sensitive adhesive on the surface of the substrate.

A UV curable silicone adhesive composition and method for its preparation are provided. The UV curable silicone adhesive composition is useful in electronic device fabrication for adhering components such as fingerprint sensors to substrates, such as OLED display devices.