A conductive film includes a film substrate and a conductive layer formed on at least one surface of the film substrate. The film substrate and the conductive film have elongation of 10% or more. Ten-point average roughness Rz of the surface of the film substrate on at least a conductive layer side is 0.05 to 0.5 μm, and an average interval Sm of unevenness is 0.1 to 1 μm.

The present specification provides a conductive structure body comprising: a substrate; a conductive layer; at least one intermediate layer; and a darkening layer, and a method of manufacturing the same. The conductive structure body may prevent reflectance by the conductive layer without affecting conductivity of the conductive layer, and may improve a concealing property of the conductive layer by improving absorbance. Accordingly, a display panel having improved visibility may be developed by using the conductive structure body.

A touch input device that includes a housing; a touch detecting sensor having a piezoelectric film; a holding member; an interlayer pressure-sensitive adhesive that fixes the touch detecting sensor to the holding member; and a fixing adhesive that fixes the holding member to the housing. The interlayer pressure-sensitive adhesive has a large Young's modulus at lower temperatures and a small Young's modulus at higher temperatures. The fixing adhesive has a large Young's modulus at lower temperatures and a small Young's modulus at higher temperatures.

Provided is an adhesive composition including: a (meth)acrylic acid ester-based photo-curable resin; and an oxygen-free di-functional diene-based rubber hardener.

Method is provided which includes mounting a touch screen protector to the front face of a portable electronic device. The front face has a declining surface portion extending along the outer perimeter thereof. The touch screen protector includes a planar sheet having a front side and a back side, an outer perimeter corresponding in shape to the device, and a transparent window portion. An opaque band is applied around the perimeter of the planar sheet, surrounding the transparent window portion. An adhesive layer is applied to the back side of the planar sheet for mounting the touch screen protector on the device. The planar sheet is sufficiently stiff such that a portion of the glass touch screen protector hangs over the declining surface portion of the front face of the portable electronic device when mounted thereon.

A light reflecting film may be provided that improves the self-restoring property of a stretched section thereof when stretched and attached to a curved surface and that has excellent scratch resistance and light resistance, a production method for the light reflecting film, a decorative molding method may also be provided for the light reflecting film, laminated glass, and a curved surface body.

The present invention relates to an anti-scattering film and a method for manufacturing the same, the anti-scattering film including: a transparent film; and a hard coating layer formed on top of the transparent film, in which the hard coating layer is formed of a composition which includes a UV-curable acrylate resin, first inorganic nanoparticles, second inorganic nanoparticles, a photoinitiator, and a mixed solvent comprising a ketone-based solvent and an alcohol-based solvent, and a plurality of protruding parts is formed on an upper surface of the hard coating layer.

A method for manufacturing an electrode film includes the steps of laminating a metal layer and a black photoresist layer sequentially on a first main surface of a transparent base material, subjecting the black photoresist layer to patterning in a mesh shape by partially exposing the black photoresist layer and performing development, processing the metal layer into a metal mesh electrode by subjecting the metal layer to etching by using the black photoresist layer subjected to the patterning as an etching mask until the metal layer has a width smaller than a width of a thin wire line constituting a mesh of the black photoresist layer, and covering an upper surface and both side surfaces of a thin wire line constituting a mesh of the metal mesh electrode with the black photoresist layer by heating and softening the black photoresist layer to cause the black photoresist layer softened to flow.

Provided are a transparent conducting film laminate to which a curl generated during a heating step and after the heating step can be controlled, and a method for processing the same. A transparent conducting film laminate comprises a transparent conducting film 20 and a carrier film 10 stacked thereon, wherein the transparent conducting film 20 comprises a transparent resin film 3, transparent conducting layer 4, and an overcoat layer 5 stacked in this order, the transparent resin film 3 having a thickness T.sub.1 of 5 to 25 μm and being made of an amorphous cycloolefin-based resin, the carrier film 10 is releasably stacked on the other main face, the face opposite to the face having the transparent conducting layer 4, of the transparent resin film 3 with an adhesive agent layer 2 therebetween, and a protection film 1 has a thickness T.sub.2 which is 5 times or more of the thickness T.sub.1 of the transparent resin film 3 and is 150 μm or less, and is made of polyester having an aromatic ring in its molecular backbone.

A transfer foil for a touch sensor includes a temporary support, a conductive layer, and a layer to be bonded to a support. The peel adhesion between the temporary support and the conductive layer is 0.20 N/mm or less. The layer to be bonded to a support has a thickness of 20 μm or less, and a modulus of elasticity of 0.10 MPa or more at a temperature of 130° C. The conductive layer includes a detection electrode that has a mesh pattern formed of a thin wire consisting of a conductive member and an external connection terminal that consists of a conductive member and is drawn from the detection electrode. The thin wire forming the mesh pattern of the detection electrode has a line width of 1 μm or more and 4.5 μm or less.