Transfer films, articles made therewith, and methods of making and using transfer films to form bridged nanostructures are disclosed.

Apparatus, compositions, and systems for ultraviolet (UV) heat-activated laminating adhesives applied via an inkjet printing process are disclosed. A system includes a first inkjet mechanism configured to deposit ink in a particular pattern onto a surface of a rigid medium. A second inkjet mechanism is configured to deposit a laminating adhesive onto the particular pattern printed on the surface of the rigid medium. A pair of stainless steel plates is configured to receive an overlay film layer and the laminating adhesive deposited onto the particular pattern printed on the surface of the rigid medium. The overlay film layer is positioned such that a surface of the overlay film layer faces the laminating adhesive. Pressure and heat are applied to the overlay film layer and the laminating adhesive to laminate the particular pattern printed on the surface of the rigid medium.

A method for bonding two parts together in accordance with an embodiment of the disclosure can include providing first and second parts, placing a light curable adhesive between the first and second parts, and irradiating the light curable adhesive using a modified fiber optic filament disposed between the first and second parts.

A method of manufacturing a double-sided polarizing plate and a double-cited polarizing plate manufactured using the same are disclosed. The method of manufacturing a double-sided polarizing plate including attaching transparent films to both surfaces of a polarizer via adhesive layers; irradiating the adhesive layers with active energy rays in an amount of light of 200 mJ/cm.sup.2 or more through an energy source located in a single direction, based on the polarizer; and thermally treating a surface of the transparent film provided to oppose the energy source at a temperature of from 10° C. to 25° C.

A photosensitive resin composition, comprising a binder polymer, a photopolymerizable compound, and a photopolymerization initiator, wherein the photopolymerization initiator contains a compound represented by the following general formula (1):

##STR00001##

[In the formula (1), R.sup.1, R.sup.2, R.sup.3 and R.sup.4 each independently represent an alkyl group, an aryl group, an aralkyl group, —OR.sup.5, —COOR.sup.6 or —OCOR.sup.7; and R.sup.5, R.sup.6 and R.sup.7 each independently represent an alkyl group, an aryl group or an aralkyl group.]

The present invention relates to a micropattern layer based image film and a method for manufacturing the same. The image film comprises: a sacrificial layer; a first micropattern layer formed on the sacrificial layer; a second micropattern layer formed on the first micropattern layer; a focal length layer formed on the second micropattern layer; and a micro-image pattern formed on the focal length layer, wherein the first micropattern layer includes a plurality of concave parts extending in one direction, and concave curved surfaces of the plurality of concave parts are formed adjacent to the sacrificial layer; the second micropattern layer includes a plurality of convex parts extending in one direction, and convex curved surfaces of the plurality of convex parts are formed adjacent to the focal length layer; and the first micropattern layer and the second micropattern layer are orthogonal to each other.

A sealed module is provided in the present disclosure. The sealed module includes a first substrate with a lens unit and an adhesive geometry formed around the lens unit, a second substrate stacked onto the first substrate, and a sealing wall for sealing the first substrate with the second substrate to form a closed cavity. The lens unit is located in the closed cavity, and the adhesive geometry serves as an adhesive barrier. The adhesive geometry includes glue guiding features for controlling a track of adhesive glue during a stacking process between the first substrate and the second substrate. The present disclosure further provides a method for making a sealed module.

Provided is a display device including a display panel having a display region and a non-display region, a window covering the display panel, and an adhesive member interposed between the display panel and the window to adhere the window to the display panel. The composition material of the adhesive member includes an adhesive layer which is cured by light and a wavelength conversion material which converts the light into infrared rays.

The present invention aims to provide a conductive layered body having excellent solvent resistance and scratch resistance as well as a low haze value and a significantly high light transmittance. The present invention relates to a conductive layered body including, as an outermost layer thereof, a conductive layer containing a conductive fibrous filler, wherein the conductive layered body has a Martens hardness of 150 to 3,000 N/mm.sup.2 as measured at an indentation depth of 100 nm from a surface, and a ratio, in atomic percentage, of a conductive material element constituting the conductive fibrous filler on an outermost surface-side surface of the conductive layer is 0.15 to 5.00 at %.

lining hose for the renovation of fluid carrying (fluid bearing) systems comprising

a) at least one inner tubular foil based on thermoplastic polymers mindestens einem inneren Folienschlauch auf der Basis eines thermoplastischen Kunststoffs,

b) at least one outer tubular foil based on thermoplastic polymers and

c) at least one fiber hose impregnated with a photochemically curing resin between one inner and one outer tubular foil wherein the outer tubular foil which is in contact with a resin impregnated fiber hose comprises functional groups on a surface which surface, in the installed state, is oriented towards the fiber hose and which functional groups undergo a reaction with the fiber hose.