Abstract:
A hydrophilic laminate, including: a substrate made of a resin; and a hydrophilic resin layer on the substrate made of a resin, wherein the hydrophilic resin layer comprises micro convex portions or micro concave portions in a surface thereof, and wherein a pure water contact angle of the surface of the hydrophilic resin layer is less than 40°.
Abstract:
The thiol group-containing colored compound includes a chromophore having absorption in a visible light region, a thiol group, and a spacer provided between the chromophore and the thiol group. The spacer is a chain alkylene group having 2 to 30 carbon atoms, a cyclic alkylene group having 3 to 30 carbon atoms, or a derivative of either alkylene group in which the number of carbon atoms in an additional structure of the alkylene group is equal to or less than the number of carbon atoms in the alkylene group.
Abstract:
A transparent conductive film contains a metal filler, a colored compound adsorbed to the surface of the metal filler, and at least one of thiols, sulfides, and disulfides adsorbed to the surface of the metal filler. When the terminal on the metal filler side of the colored compound is not any of thiols, sulfides, and disulfides, at least one of colorless thiols, sulfides, and disulfides is adsorbed to the surface of the metal filler. According to this transparent conductive film, an increase in resistance can be suppressed while suppressing diffuse reflection of light on the surface of the metal filler.
Abstract:
A transparent conductive film including metal nanowires and a colored compound adsorbed by the metal nanowires is provided. The metal nanowires are a material which absorbs light in the visible light region, and also each has a functional group which is bound to a metal constituting the metal nanowire.
Abstract:
A transparent conductive film includes a metal filler and a colored self-assembled material adsorbed to the surface of the metal filler. This transparent conductive film can prevent diffuse reflection of light on the surface of the metal filler.
Abstract:
A hydrophilic laminate, including: a substrate made of a resin; and a hydrophilic resin layer on the substrate made of a resin, wherein the hydrophilic resin layer comprises micro convex portions or micro concave portions in a surface thereof, and wherein a pure water contact angle of the surface of the hydrophilic resin layer is less than 40°.
Abstract:
The present invention provide a lipophilic laminate including a substrate and a lipophilic resin layer on the substrate, wherein the lipophilic resin layer has micro convex portions or micro concave portions in a surface thereof and contains filler particles, and when parts of the filler particles are exposed from the lipophilic resin layer, the rate of exposed portions of the filler particles relative to the surface of the lipophilic resin layer is 0.1% or more.
Abstract:
Provided is a metal nanowire-containing transparent conductive film that can efficiently inhibit scattering of external light at a display screen such as a touch panel, and improve black floating prevention (photopic contrast) and electrode pattern non-visibility. Also provided are a method for producing the transparent conductive film, an information input device including the transparent conductive film, and an electronic device including the transparent conductive film. The transparent conductive film includes one or more metal nanowires and the number of metal nanowire bundle structures present in the transparent conductive film is 3 or fewer per each rectangular area region of 30 μm in height and 40 μm in width of the transparent conductive film.
Abstract:
A transparent conductive film including metal nanowires and a colored compound adsorbed by the metal nanowires is provided. The metal nanowires are a material which absorbs light in the visible light region, and also each has a functional group which is bound to a metal constituting the metal nanowire.
Abstract:
An anti-smudge body having a surface that, when fingerprints adhere to the surface, allows the fingerprint patterns to spread spontaneously to thereby cause them to become less noticeable has the surface and a plurality of protrusions provided thereto. The protrusions contain at least one of a first compound having an ester linkage in a portion other than terminal ends and a second compound having a cyclic hydrocarbon group.