A method of producing a laminated body, the method including a coagulant solution deposition step of depositing a coagulant solution on a fiber substrate, and a coagulation step of forming a polymer layer on the fiber substrate by bringing a polymer latex into contact with the fiber substrate having the coagulant solution deposited thereon to cause a polymer to coagulate. As the coagulant solution, a solution obtained by dissolving or dispersing 0.2 to 7.0% by weight of a metal salt as a coagulant and 0.1 to 7.0% by weight of an organic acid in a solvent is used. In the method of producing a laminated body, the metal salt is a polyvalent metal salt. In the method of producing a laminated body, the organic acid is an organic acid having at least one group selected from a carboxyl group, a sulfo group, a hydroxy group, and a thiol group.

A method of manufacturing a composite material, comprising providing a conductive polymer having a hydrophilic end and adding a metal oxide, such that the metal oxide is connected to the hydrophilic end of the conductive polymer, wherein the metal oxide is obtained by subjecting a metal oxide precursor to a dehydration reaction, a polymerization reaction, a condensation reaction, or a combination thereof.

A method of manufacturing a composite material, comprising providing a conductive polymer having a hydrophilic end and adding a metal oxide, such that the metal oxide is connected to the hydrophilic end of the conductive polymer, wherein the metal oxide is obtained by subjecting a metal oxide precursor to a dehydration reaction, a polymerization reaction, a condensation reaction, or a combination thereof.

A substrate with a superhydrophobic coating, wherein the superhydrophobic coating includes a binding layer disposed on the substrate, and a hydrophobic layer disposed on the binding layer, wherein the hydrophobic layer includes perfluoroalkyl-functionalized silica nanoparticles, and a method of fabricating the substrate with the superhydrophobic coating. Various combinations of embodiments of the substrate with the superhydrophobic coating and the method of fabricating thereof are provided.

A substrate with a superhydrophobic coating, wherein the superhydrophobic coating includes a binding layer disposed on the substrate, and a hydrophobic layer disposed on the binding layer, wherein the hydrophobic layer includes perfluoroalkyl-functionalized silica nanoparticles, and a method of fabricating the substrate with the superhydrophobic coating. Various combinations of embodiments of the substrate with the superhydrophobic coating and the method of fabricating thereof are provided.

Embodiments of the disclosure relate to methods of selectively depositing organic and hybrid organic/inorganic layers. More particularly, embodiments of the disclosure are directed to methods of modifying hydroxyl terminated surfaces for selective deposition of molecular layer organic and hybrid organic/inorganic films. Additional embodiments of the disclosure relate to cyclic compounds for use in molecular layer deposition processes.

Electrodes are formed by, as a dry method, alternately applying electrode active material and electrolyte particles as thin-film layers. Furthermore, the films are formed wholly or partially by employing an aerosol deposition method. Moreover, high-density layers can be formed and adhesion is improved by, as a wet method, impactfully and alternately colliding, with a target object, slurry made primarily from an electrode active material and solvent and a slurry made primarily from electrolyte particles and a solvent, adhering same in thin films and layering same. A slurry made primarily from a conductivity aid and a solvent is independently prepared, and a small quantity thereof is applied diffusely at a desired position. Moreover, by using no binder or keeping binder content low, residual carbon can be eliminated or kept low so as to improve battery performance.

Apparatus and method useful for, among other things, providing a layer by layer coating of materials on a substrate.

Apparatus and method useful for, among other things, providing a layer by layer coating of materials on a substrate.

A hard coat film having excellent adhesion (particularly adhesion over time) to a hard coat layer when a cycloolefin polymer film is used as a base material. The hard coat film comprises a hard coat layer containing an ionizing radiation curable resin laminated on at least one surface of a cycloolefin polymer base film via a primer layer. The primer layer has an arithmetic average surface roughness (Ra) in the range of 0.5 nm to 15.0 nm, and a surface of the primer layer has a static friction coefficient in the range of 0.6 to 2.0.