An optical component includes: a plastic base which has a convex surface and a concave surface; and a multilayer film which is disposed on at least the convex surface of the plastic base. The multilayer film has an average reflectivity of 2% to 10% over a wavelength range of 400 nm to 500 nm.

An anti-scratch film, including a film base and an anti-scratch layer on one side of the film base. The anti-scratch layer includes a plurality of protrusions.

An article is described comprising a substrate and a plurality of layers deposited by layer-by-layer self-assembly disposed on the substrate. A portion of the layers comprise inorganic oxide nanoparticles comprising a phosphorous-containing surface treatment. Also described is an article comprising a bi-layer, the bi-layer comprises a monolayer of a polycation and a monolayer of a polyanion. The polyanion comprises inorganic oxide nanoparticles comprising a phosphorous-containing surface treatment. The polycations may be a polyelectrolyte or inorganic oxide nanoparticles.

An antistatic article including a substrate having a first surface, a sputtered conductive layer arranged on the first surface and having a thickness ranging from approximately 0.5 nanometers to approximately 10 nanometers, and an outer layer or a series of layers arranged atop the sputtered conductive layer, wherein, the antistatic article exhibits a surface resistivity of less than approximately 10.sup.12 ohms/square. A method of making an antistatic article includes pretreating a surface of the substrate, sputtering the conductive layer onto the surface to a thickness ranging from approximately 0.5 nanometers to approximately 10 nanometers, and sputtering the outer layer and one or more additional layers atop the conductive layer, wherein, the antistatic article exhibits a surface resistivity of less than approximately 10.sup.12 ohms/square.

A vehicle and a building includes a window and a window film attached on the window. The window film includes a polymer film, a carbon nanotube film embedded in the polymer film, and a protective layer located on the polymer film. The carbon nanotube film includes a plurality of carbon nanotubes substantially aligned along the same direction. The carbon nanotube film is located between the protective layer and the polymer film.

The invention relates to an optical article comprising a substrate coated with an abrasion and scratch resistant coating composed of a lower layer and an upper layer that do adhere to each other, the upper layer and the lower layer being layers of cured upper and lower layer compositions, said upper layer composition comprising at least one organosilane, or a hydrolyzate thereof, of formula R.sub.nY.sub.mSi(X).sub.4-n-m and at least one compound, or a hydrolyzate thereof, of formula M(Z).sub.x, the following ratio being lower than 2.3: $\mathrm{Rs}=\frac{\begin{array}{c}\mathrm{theoretical}\mathrm{dry}\mathrm{matter}\mathrm{weight}\mathrm{of}\\ \mathrm{compounds}I\mathrm{in}\mathrm{the}\mathrm{upper}\mathrm{layer}\mathrm{composition}\end{array}}{}$

An optical element is used for an exposure apparatus which is configured to illuminate a mask with an exposure light beam for transferring a pattern on the mask onto a substrate through a projection optical system and to interpose a given liquid in a space between a surface of the substrate and the projection optical system. The optical element includes a first anti-dissolution member provided on a surface of a transmissive optical element on the substrate's side of the projection optical system.

The present invention provides an optical layered body having excellent antistatic properties, optical characteristics, hardness, adhesion, and interference fringe prevention performance, which can be produced at a low cost. An optical layered body having a hard coat layer provided on a triacetylcellulose substrate, wherein a resin composition used for forming the hard coat layer contains a quaternary ammonium salt-containing polymer, a binder resin, and a solvent; the quaternary ammonium salt-containing polymer has a higher hydrophilicity than the binder resin; and the binder resin contains two or more resin components having different hydrophilicities.

The disclosure is directed to enhanced silver coated aluminum substrates for use as optical mirrors in which galvanic corrosion between the silver and aluminum is prevented and a method of making such silver coating and mirrors. The optical mirror according to the disclosure has an in-situ formed barrier layer inserted between the aluminum substrate and the silver layer. In addition, selected layers are densified by carrying out their deposition using a high power RF ion source during their deposition.

There is provided an optical member that suppresses the occurrence of moire, and can realize a liquid crystal display apparatus that is excellent in mechanical strength and has high brightness. An optical member according to an embodiment of the present invention includes a polarizing plate, a light diffusion layer, a reflective polarizer, and a prism sheet in the stated order.