A method of growing plants comprising determining preferential light wavelengths for promoting growth of a plant. The method further comprises constructing one or more light filtering panels arranged to filter natural sunlight or artificial light to produce filtered light comprising the preferential wavelengths. In addition, the method comprises locating one or more plants in a structure constructed at least in part from one or more of the panels. The method also comprises illuminating the structure from outside with natural sunlight or artificial light to pass through the one or more panels and produce the filtered light wherein the filtered light is directed to radiate the plants.

Provided is a transparent substrate with a coating film having excellent ultraviolet absorbing ability and scratch resistance while maintaining visible light transmittance at high level. The transparent substrate with the coating film includes a transparent substrate, and a coating film formed at least at a part of a surface of the transparent substrate. The coating film contains a silicon oxide matrix and a specific ultraviolet absorbent, and has a thickness of 3 to 10 μm. The transparent substrate with the coating film has a transmittance of light with a wavelength of 400 nm of 10% or less, and a visible light transmittance of 50% or more, no scratch is visually recognized by a specific scratch resistance test for surface of the coating film, and a value where YI of the transparent substrate is subtracted from YI of the transparent substrate with the coating film is 10 or less.

A glazing applicable to multiple illumination products comprises a first glass substrate having first and second surfaces, a second glass substrate having third and fourth surfaces, a polymer interlayer laminated between the first and second substrates, and a coating including a first luminescent material and being applied on one of the third and fourth surfaces of the second glass substrate, for emitting light to both of the interior and exterior.

Provided are a composition which includes a compound having a benzodithiol structure and a compound having an —O—Si—O— structure and is capable of forming a film that has long-wavelength ultraviolet range shielding properties, high pencil hardness and good light fastness; a film; a glass article; a compound; a high purity composition; a method for producing a compound; and a method for producing a film.

A method of manufacturing a reinforced cover window and a reinforced cover window manufactured thereby are proposed. The method includes a first step of forming a TPI layer on a base substrate, a second step of separating the TPI layer from the base substrate, a third step of forming an adhesive buffer layer on a glass substrate, and a fourth step of stacking the TPI layer on the adhesive buffer layer. This secures the TPI's unique pencil hardness of 4H to 6H while maintaining the unique aesthetic sense and touch feeling of the glass.

A process for preparing a glass product with marking and the glass product with marking obtained according to the process thereof are described. The process includes 1) coating an ink composition onto a surface of a glass substrate, and 2) heating the glass substrate obtained in step 1). The obtained glass product includes a marking that contains particles having a size of from 150 to 600 nm.

The present disclosure relates to a method for fabricating a rear cover glass and a flexible display device including a first body, a second body configured to be movable relative to the first body, a flexible display disposed on a front surface of the first body and a rear surface of the second body and configured such that a size of an area exposed to the front surface of the first body and a size of an area exposed to the rear surface of the second body vary as the first body and the second body are moved relative to each other, and a rear cover glass mounted on the second body and disposed to cover at least a part of the rear surface of the second body.

A method for manufacturing a window glass according to an embodiment of the present disclosure includes: preparing a carrier film; forming an assembly by attaching the carrier film to a window base; coating a UV resin on a jig; placing the assembly on the jig so that the window base faces downwards; attaching the assembly and the UV resin on the jig to each other by using a roller; primarily curing the UV resin by performing primary UV irradiation to an upper portion of the assembly attached with the UV resin on the jig; removing an uncured portion of the UV resin; and secondarily curing a remaining portion of the UV resin from which the uncured portion of the UV resin has been removed by performing secondary UV irradiation to the remaining portion of the UV resin.

A material includes a transparent substrate coated with a stack including at least one silver-based functional metallic layer and at least two dielectric coatings, each dielectric coating including at least one dielectric layer, so that each functional metallic layer is positioned between two dielectric coatings, wherein the stack includes two blocking layers located in contact, below and above, with a silver-based functional metallic layer, the blocking layers being chosen from metallic layers based on a metal or a metal alloy of one or more elements chosen from titanium, nickel, chromium, tantalum, zirconium and niobium, and a titanium nitride layer located in contact with a blocking layer and separated from the silver-based functional layer by the blocking layer.

A coating solution for blocking ultraviolet (UV) and blue light includes a silica sol and a chelating agent. The silica sol includes silicate, a first solvent, a first coupling agent, a first catalyst, and deionized water. The chelating agent includes a UV absorber, a blue-light absorber, a second solvent, a second catalyst, and a second coupling agent. A glass sheet for blocking UV and blue light includes a bent glass panel (1) and a coating (2) for blocking UV and blue light. A laminated glass for blocking UV and blue light includes a glass sheet for blocking UV and blue light, an intermediate adhesive layer, and a second glass panel.