The present invention provides coating compositions for forming a toner coating and inkjet receptive coatings on a substrate containing a film forming polymer comprising (a) a monomer (monomer A) comprising at least one functionalized or unfunctionalized acryloyl moiety and at least one lactam moiety. (b) a N-vinyl amide monomer (monomer B.sub.x1), (c) an optional cross-linker (monomer B.sub.x2) and (d) a solvent. The coating compositions may further comprise an additional hydrophobic monomer moiety. The present invention further provides toner substrates and inkjet receptive substrates coated with the coating compositions. ##STR00001##

The present invention provides coating compositions for forming a toner coating and inkjet receptive coatings on a substrate containing a film forming polymer comprising (a) a monomer (monomer A) comprising at least one functionalized or unfunctionalized acryloyl moiety and at least one lactam moiety. (b) a N-vinyl amide monomer (monomer B.sub.x1), (c) an optional cross-linker (monomer B.sub.x2) and (d) a solvent. The coating compositions may further comprise an additional hydrophobic monomer moiety. The present invention further provides toner substrates and inkjet receptive substrates coated with the coating compositions. ##STR00001##

A polarizing film, wherein transparent protective films are laid, respectively, on/over both surfaces of a polarizer to interpose an adhesive layer (a) and an adhesive layer (b), respectively, between both surfaces of a polarizer, and transparent protective films. The adhesive layer (a) on/over one of both the surfaces has a glass transition temperature of 60 C. or higher and lower than 40 C. The adhesive layer (b) on/over the other surface has a glass transition temperature of 40 C. or higher. The adhesive layer (a) is a layer formed in the form of a cured product layer yielded by radiating an active energy ray to an active-energy-ray-curable adhesive composition (a). The active-energy-ray-curable adhesive composition (a) comprises, as radical polymerizable compounds, a component A having a logPow of 2 to 2, and a component B having a logPow more than 7, these logPow values being each an octanol/water distribution coefficient.

A polarizing film, wherein transparent protective films are laid, respectively, on/over both surfaces of a polarizer to interpose an adhesive layer (a) and an adhesive layer (b), respectively, between both surfaces of a polarizer, and transparent protective films. The adhesive layer (a) on/over one of both the surfaces has a glass transition temperature of 60 C. or higher and lower than 40 C. The adhesive layer (b) on/over the other surface has a glass transition temperature of 40 C. or higher. The adhesive layer (a) is a layer formed in the form of a cured product layer yielded by radiating an active energy ray to an active-energy-ray-curable adhesive composition (a). The active-energy-ray-curable adhesive composition (a) comprises, as radical polymerizable compounds, a component A having a logPow of 2 to 2, and a component B having a logPow more than 7, these logPow values being each an octanol/water distribution coefficient.

A thermally conductive acrylic adhesive tape, which includes 600-800 parts by weight of a metal hydroxide, and 100 parts by weight of an acrylic copolymer that is based on least one alkyl(meth)acrylate and 1-30 parts by weight of a polar group containing monomer, wherein that thermally conductive acrylic adhesive tape also includes 10-50 parts by weight of a phosphate ester and 10-50 parts by weight of a plasticizer. Further, a method for manufacturing the thermally conductive acrylic adhesive tape is disclosed.

A thermally conductive acrylic adhesive tape, which includes 600-800 parts by weight of a metal hydroxide, and 100 parts by weight of an acrylic copolymer that is based on least one alkyl(meth)acrylate and 1-30 parts by weight of a polar group containing monomer, wherein that thermally conductive acrylic adhesive tape also includes 10-50 parts by weight of a phosphate ester and 10-50 parts by weight of a plasticizer. Further, a method for manufacturing the thermally conductive acrylic adhesive tape is disclosed.

The present application discloses an adhesive composition comprising a polymer of the formulae A, B and C:

##STR00001##

and methods for using the adhesive composition.

##STR00002## wherein x and y define the block polymer and are integer greater than 1.

The present application discloses an adhesive composition comprising a polymer of the formulae A, B and C:

##STR00001##

and methods for using the adhesive composition.

##STR00002## wherein x and y define the block polymer and are integer greater than 1.

A pressure-sensitive adhesive composition for an image display panel, a pressure-sensitive adhesive layer for an image display panel, and an optical film provided with a pressure-sensitive adhesive layer are disclosed which are free of problems regarding durability and defective appearance caused by an antistatic agent (conductive agent), and which have superior antistatic properties so as to be usable for applications such as in an image display panel. An image display panel is also disclosed in which the optical film provided with a pressure-sensitive adhesive layer is attached to the surface of the image display panel in contact with the pressure-sensitive adhesive layer without an interposed conductive layer, and a liquid crystal display device using the image display panel. Further, a liquid crystal display device is disclosed with a touch sensing function using the image display panel that can be used as various input display devices such as mobile devices.

A pressure-sensitive adhesive composition for an image display panel, a pressure-sensitive adhesive layer for an image display panel, and an optical film provided with a pressure-sensitive adhesive layer are disclosed which are free of problems regarding durability and defective appearance caused by an antistatic agent (conductive agent), and which have superior antistatic properties so as to be usable for applications such as in an image display panel. An image display panel is also disclosed in which the optical film provided with a pressure-sensitive adhesive layer is attached to the surface of the image display panel in contact with the pressure-sensitive adhesive layer without an interposed conductive layer, and a liquid crystal display device using the image display panel. Further, a liquid crystal display device is disclosed with a touch sensing function using the image display panel that can be used as various input display devices such as mobile devices.