The wet adhesion of a coating composition may be improved through the use of voided latex particles as opacifying agents which contain a hollow interior as well as an outer shell of a polymer containing functional groups such as amino, 1,3-diketo, urea or ureido. Other types of functional groups may be introduced to the outer shell polymer in order to vary other desired characteristics of the coating. The voided latex particles are non-film-forming.

The wet adhesion of a coating composition may be improved through the use of voided latex particles as opacifying agents which contain a hollow interior as well as an outer shell of a polymer containing functional groups such as amino, 1,3-diketo, urea or ureido. Other types of functional groups may be introduced to the outer shell polymer in order to vary other desired characteristics of the coating. The voided latex particles are non-film-forming.

The wet adhesion of a coating composition may be improved through the use of voided latex particles as opacifying agents which contain a hollow interior as well as an outer shell of a polymer containing functional groups such as amino, 1,3-diketo, urea or ureido. Other types of functional groups may be introduced to the outer shell polymer in order to vary other desired characteristics of the coating. The voided latex particles are non-film-forming.

An object of the present invention is to provide a plated layer forming composition which is capable of forming a plated layer having excellent alkali resistance and is capable of forming a metal layer on the plated layer even in the case of forming the plated layer by exposure with a low exposure amount; a film having a plated-layer precursor layer; a film having a patterned plated layer; an electroconductive film; and a touch panel. The plated layer forming composition of the present invention includes a polymer having a group capable of interacting with a plating catalyst or a precursor thereof, and a polyfunctional monomer having three or more acrylamide groups or methacrylamide groups.

An object of the present invention is to provide a plated layer forming composition which is capable of forming a plated layer having excellent alkali resistance and is capable of forming a metal layer on the plated layer even in the case of forming the plated layer by exposure with a low exposure amount; a film having a plated-layer precursor layer; a film having a patterned plated layer; an electroconductive film; and a touch panel. The plated layer forming composition of the present invention includes a polymer having a group capable of interacting with a plating catalyst or a precursor thereof, and a polyfunctional monomer having three or more acrylamide groups or methacrylamide groups.

An object of the present invention is to provide a plated layer forming composition which is capable of forming a plated layer having excellent alkali resistance and is capable of forming a metal layer on the plated layer even in the case of forming the plated layer by exposure with a low exposure amount; a film having a plated-layer precursor layer; a film having a patterned plated layer; an electroconductive film; and a touch panel. The plated layer forming composition of the present invention includes a polymer having a group capable of interacting with a plating catalyst or a precursor thereof, and a polyfunctional monomer having three or more acrylamide groups or methacrylamide groups.

Described herein is a polar non-aqueous dispersion comprising polar polymeric microparticles in a polar non-aqueous medium, the polar polymeric microparticles being insoluble in the medium and being produced by dispersion polymerization of vinyl monomers such as acrylate monomers in the medium in the presence of a polymeric acrylic stabilizer. Inks, coatings and overprint varnishes are formulated that employ the polar non-aqueous dispersion. Such inks, etc., exhibit superior chemical resistance properties, for example in one-part and two-part systems.

Described herein is a polar non-aqueous dispersion comprising polar polymeric microparticles in a polar non-aqueous medium, the polar polymeric microparticles being insoluble in the medium and being produced by dispersion polymerization of vinyl monomers such as acrylate monomers in the medium in the presence of a polymeric acrylic stabilizer. Inks, coatings and overprint varnishes are formulated that employ the polar non-aqueous dispersion. Such inks, etc., exhibit superior chemical resistance properties, for example in one-part and two-part systems.

Described herein is a polar non-aqueous dispersion comprising polar polymeric microparticles in a polar non-aqueous medium, the polar polymeric microparticles being insoluble in the medium and being produced by dispersion polymerization of vinyl monomers such as acrylate monomers in the medium in the presence of a polymeric acrylic stabilizer. Inks, coatings and overprint varnishes are formulated that employ the polar non-aqueous dispersion. Such inks, etc., exhibit superior chemical resistance properties, for example in one-part and two-part systems.

The wet adhesion of a coating composition may be improved through the use of voided latex particles as opacifying agents which contain a hollow interior as well as an outer shell of a polymer containing functional groups such as amino, 1,3-diketo, urea or ureido. Other types of functional groups may be introduced to the outer shell polymer in order to vary other desired characteristics of the coating. The voided latex particles are non-film-forming.