A glass substrate with a silica film according to the present invention includes a glass substrate and a silica film formed using a silica film-forming composition, in which the composition includes at least one kind selected from the group consisting of a hydrolyzable compound, a hydrolyzate thereof, and a hydrolysis condensation compound thereof, and at least one kind selected from the group consisting of a silica particle and a zirconia particle, the hydrolyzable compound consisting of a tetraalkoxysilane, a compound (compound I) represented by formula I: (R.sub.3-p(L).sub.pSi-Q-Si(L).sub.pR.sub.3-p), optionally a fluoroalkylsilane having a hydrolysable group, and optionally a zirconium compound having a hydrolyzable group, and the contents of the tetraalkoxysilane, the compound I, and the at least one kind selected from the group consisting of a silica particle and a zirconia particle in terms of SiO.sub.2/ZrO.sub.2 fall within specified ranges, respectively.

A polyvinyl acetal resin film, having an average surface roughness Rz of at least one surface of 3.0 μm or less; a birefringence Δn of 3.0×10.sup.−4 or less; and an average thickness of 200 μm or less.

A composite material for passive radiative cooling including a base layer, and at least one emissive layer located adjacent to a surface of the base layer, wherein the at least one emissive layer is affixed to the surface of the base layer via a binding agent.

A composite material for passive radiative cooling is provided. In some embodiments, the composite material includes a base layer, and at least one emissive layer located adjacent to a surface of the base layer. In some embodiments, the at least one emissive layer is affixed to the surface of the base layer via a binding agent. In some embodiments, the surface of the base layer comprises a reflective substrate comprising an adhesive layer. In some embodiments, the at least one emissive layer is affixed to the base layer via the adhesive layer of the base layer.

Noble metal-coated nanostructures and related methods are disclosed. According to an aspect, a nanostructure may include a structure comprising a base metal. As an example, the structure may be a nanowire. In a more specific example, the structure may be a copper nanowire or a nanowire made of a base metal such as nickel, tin, indium, zinc, the like, or combinations thereof. The base metal structure may be coated with a noble metal that conformally covers the base metal structure. Example noble metals include, but are not limited to, ruthenium, rhodium, palladium, silver, iridium, platinum, and gold. The coating may be made of one or more of the noble metals along with other materials.

Fabrics made for apparel, tents, sleeping bags and the like, in various composites, constructed such that a combination of substrate layers and insulation layers is configured to provide improved thermal insulation. The fabric composites are constructed to form a radiant barrier against heat loss via radiation and via conduction from a body.

According to an aspect, a flow path component includes a flow path component body having a flow surface. The flow path component also includes a plurality of antimicrobial nanoparticles embedded in the flow surface and at least partially exposed external to the flow surface to provide an antimicrobial surface.

A window film is disclosed. The window film includes: a flexible transparent base material; a first metal target material film, disposed on the surface of the flexible transparent base material; a first high refractive index compound film, disposed on the surface of the first metal target material film; a first metal oxide film, disposed on the surface of the first high refractive index compound film; a first silver-containing metal film, disposed on the surface of the first metal oxide film; a second metal target material film, disposed on the surface of the first silver-containing metal film; and a second high refractive index compound film, disposed on the surface of the second metal target material film. The window film has better adherence, and is less likely to peel off. In addition, the window film also has better oxidation resistance, and is less likely to be oxidized. Furthermore, the window film also has a better optical effect and heat insulation effect.

An electronic component includes an element main body and at least a pair of outer electrodes on the element main body. The outer electrodes each include an underlying electrode layer positioned so as to be in contact with the element main body and a plating layer positioned so as to be in contact with the underlying electrode layer. The plating layer includes a Ni—Sn alloy plating layer positioned so as to be in contact with the underlying electrode layer.

Disclosed herein are washable, reusable, antimicrobial and antiviral face masks and methods of their use for the reduction of transmission of infectious pathogens. Exemplary face masks are made of silver-coated material wherein activation of the silver from moisture in a user's breath kills pathogens. The disclosed face masks are useful in reducing, inhibiting or killing pathogens, such as SARS-CoV-2, that contact the face mask within 2 hours of continuous contact.