A hardcoat composition includes one or more multifunctional (meth)acrylate monomers, and a population of semi-reactive nanoparticles dispersed within the one or more multifunctional (meth)acrylate monomers. The population of semi-reactive nanoparticles have an average particle diameter in a range from 5 nm to 60 nm.

A method of preparing a polymer dispersion comprising (i) contacting an aqueous dispersion of de-ionized acidic colloidal silica particles with a first mixture of monomers to form a combination; (ii) polymerizing such combination at an initial pH of from 2 to 5 to at least 90% in completion; and (iii) adding a second mixture of monomers at a rate substantially equal to the rate of consumption of such second mixture of monomers to continue and complete the polymerization. The present invention further provides a polymer dispersion made from the above method.

A method of preparing a polymer dispersion comprising (i) contacting an aqueous dispersion of de-ionized acidic colloidal silica particles with a first mixture of monomers to form a combination; (ii) polymerizing such combination at an initial pH of from 2 to 5 to at least 90% in completion; and (iii) adding a second mixture of monomers at a rate substantially equal to the rate of consumption of such second mixture of monomers to continue and complete the polymerization. The present invention further provides a polymer dispersion made from the above method.

A hardcoat composition includes one or more multifunctional (meth)acrylate monomers, and a population of semi-reactive nanoparticles dispersed within the one or more multifunctional (meth)acrylate monomers. The population of semi-reactive nanoparticles have an average particle diameter in a range from 5 nm to 60 nm.

A problem to be solved by this disclosure is to provide a composition, preferably a composition for forming a liquid-repellent coating film. This problem is solved by a composition comprising [1] a polymer constituting a water-repellent component, the polymer containing a constituent unit derived from (A) at least one modified fine particle containing (i) a core fine particle and (ii) one or more modifying moieties that modify the core fine particle, wherein some or all of the one or more modifying moieties have one or more polymerizable groups (a), and a constituent unit derived from (Bs) at least one compound containing one or more polymerizable groups (b) in the molecule, and containing fluorine; [2] a monomer (Bm) constituting an abrasion-resistant component; and [3] a solvent mainly containing one or more solvents selected from the group consisting of non-fluorine organic solvents and water,
wherein the ratio of the mass of the abrasion-resistant component [2] to the total mass of the water-repellent component [1] and the abrasion-resistant component [2] is 85:100 to 35:100.

The invention relates to an anti-reflective film that has low reflectance deviation and light transmittance deviation, can simultaneously realize high scratch resistance and anti-fouling property, and can increase screen sharpness of a display apparatus, a polarizing plate and a display apparatus comprising the same.

The present invention relates to a process for preparing a vinylidene chloride polymer composite comprising a vinylidene chloride polymer and clay materials. The process comprises polymerising vinylidene chloride and clay materials and the resulting vinylidene chloride polymer particle is surrounded by a plurality of clay platelets. The clay materials according to the present invention function as a solid stabilizer in the process for preparing a vinylidene chloride polymer composite of the present invention. The present invention further relates to the vinylidene chloride polymer composite obtainable from the process, to use of the vinylidene chloride polymer composite for the preparation of films, and to films prepared therefrom.

The present invention relates to a process for preparing a vinylidene chloride polymer composite comprising a vinylidene chloride polymer and clay materials. The process comprises polymerising vinylidene chloride and clay materials and the resulting vinylidene chloride polymer particle is surrounded by a plurality of clay platelets. The clay materials according to the present invention function as a solid stabilizer in the process for preparing a vinylidene chloride polymer composite of the present invention. The present invention further relates to the vinylidene chloride polymer composite obtainable from the process, to use of the vinylidene chloride polymer composite for the preparation of films, and to films prepared therefrom.

Anti-fog coatings and related articles, compositions, and methods are generally described. In some embodiments, an article may comprise a dual functional anti-fog and anti-fouling coating. The coating may be stimuli-responsive and the surface energy, and accordingly wettability, of the coating may reversibly change upon exposure to certain conditions. For instance, upon exposure to water, the coating may have a relatively high surface energy that allows water to wet the coating. Conversely, exposure to an oil may cause the coating to have a relatively low surface energy that repels the oil. In some embodiments, such a stimuli responsive coating may comprise a cross-linked polymer network with covalently attached oleophobic groups.

Anti-fog coatings and related articles, compositions, and methods are generally described. In some embodiments, an article may comprise a dual functional anti-fog and anti-fouling coating. The coating may be stimuli-responsive and the surface energy, and accordingly wettability, of the coating may reversibly change upon exposure to certain conditions. For instance, upon exposure to water, the coating may have a relatively high surface energy that allows water to wet the coating. Conversely, exposure to an oil may cause the coating to have a relatively low surface energy that repels the oil. In some embodiments, such a stimuli responsive coating may comprise a cross-linked polymer network with covalently attached oleophobic groups.