A coated metal sheet further covered with an organic resin obtained by forming, on at least one surface of a metal sheet, a coating film and further forming thereon an organic resin layer. The coating film contains a polyester resin having a glass transition temperature of 20 to 55° C., a phenol resin and an acid catalyst, in order to be able to provide the coated metal sheet further covered with the organic resin that is suited for producing cans and can lids having excellent applicability for producing cans and excellent dent resistance.

As described herein, a polyimide chemical composition may be used for coating glass articles. According to embodiments, a coated glass article may include a glass container which may include a first surface and a second surface opposite the first surface, and a low-friction coating bonded to at least a portion of the first surface of the glass container. The low-friction coating may include a polyimide chemical composition. The polyimide chemical composition may be halogenated and the polyimide chemical composition may include a siloxane moiety.

A UV nail gel and clear bottle system and method for protecting the ultraviolet (UV) nail gel formulation from curing or gelling while providing visibility of the UV nail gel formula. The system includes one or more layer of a transparent UV blocking treatment located on an exterior surface of the clear bottle comprising one or more UV absorber having an intramolecular hydrogen bond and absorption wavelengths ranging from 100 nanometers to 380 nanometers, paired with a UV nail gel formula comprising a lower curing photoinitiator having an absorption wavelength≤330 nm. The one or more layer of the transparent UV blocking treatment and UV nail gel formula with the lower curing photoinitiator protects the UV nail gel formulation from curing or gelling while providing visibility of the UV nail gel formula.

A glass container has an outer glass surface with an inkjet printed image provided on the surface. A cold-end coating (CEC) with a thickness between 0 to 20 nm is present between the outer glass surface and the inkjet printed image. Such glass container is preferably a one-way beverage bottle. A method of inkjet printing an image on a glass container comprises the steps of (a) manufacturing a glass container having a CEC layer; (b) removing at least part of the CEC layer to a level wherein the remaining CEC layer has a thickness of 0 to 20 nm; and (c) inkjet printing an image on the glass container.

A coated glass substrate comprising: a transparent glass substrate coated with a blocking layer comprising a material having Si—O—Si bonds and a blocking component, wherein the blocking component comprises fluorone and/or a fluorone derivative.

The present invention relates to a container comprising a film substrate, wherein the film substrate comprises graphene or derivative thereof and an adhesive. It further describes method for preparing the container comprising steps of preparing a suspension of graphene or derivative thereof in solvent, providing an adhesive layer, coating the adhesive layer with the suspension, and allowing the solvent to evaporate.

According to one or more embodiments, a pharmaceutical package may include a glass container and a coating. The glass container may include a first surface and a second surface opposite the first surface. The first surface may be an outer surface of the glass container. The coating may be positioned over at least a portion of the first surface of the glass container. The coating may include one or more polyimide compositions and one or more metal oxide compositions. The one or more polyimide compositions and the one or more metal oxide compositions may be mixed in the coating.

A polymerizable liquid composition including semi-conductive nanoparticles for the manufacture of ophthalmic lenses. Specifically, polymerizable composition has at least one monomer or oligomer; at least one catalyst for initiating the polymerization of the monomer or oligomer; and semi-conductive nanoparticles, which are dispersed in the monomer or oligomer. The absorbance through a 2-millimeter-thick layer of the polymerizable composition is higher than 0.5 for each light wavelength ranging from 350 to λ.sub.cut, λ.sub.cut being in the visible range, preferably in the range from 400 nm to 480 nm.

A metallic bottle can including a metallic base material of the bottle shape that has a mouth portion having a threaded portion, a shoulder portion, a body portion and a bottom portion, wherein, on the outer surface of said mouth portion, a finishing varnish layer is provided directly on said metallic base material, and said finishing varnish layer has an MEK extractability of 2 to 8% by mass.

A light filtering glass container including a glass container coated with a light filtering coating obtained by curing a polymerizable composition including semi-conductive nanoparticles. The absorbance through a 5-micrometer thick light filtering coating is greater than 0.5 for each light wavelength ranging from 350 nm to λ.sub.cut, λ.sub.cut being in the range from 420 nm to 480 nm, and the difference of lightness between the uncoated glass container and the glass container with the light filtering coating is lower than 5.