Abstract: Provided is an organic EL device substrate (1) including, in order in a thickness direction: a light-transmitting plate; a high refractive index layer (4); and a transparent conductive layer (5), the organic EL device substrate (1) having a recessed groove portion (6) configured to divide the transparent conductive layer (5) at least into a first region (R1) and a second region (R2). When a thickness of the transparent conductive layer (5) is represented by t1 (?m), a minimum width of the recessed groove portion (6) is represented by w1 (?m), and a maximum depth of the recessed groove portion (6) with respect to a surface (5a) of the transparent conductive layer (5) on an opposite side of the high refractive layer (4) is represented by d1 (?m), the following relationships are established: t1?d1; and d1/{(w1)0.5}<0.1.

Abstract: A mother substrate for substrate for electronic device including comprises a transparent substrate having a first surface and a second surface opposite to each other, a concavo-convex structure formed on the first surface of the transparent substrate, and a transparent covering layer having a higher refractive index than the transparent substrate, and being configured to cover the first surface and the concavo-convex structure. An outer peripheral end of the transparent covering layer is located at the same position as an outer peripheral end of the transparent substrate or located at a position on an inner side with respect to the outer peripheral end of the transparent substrate, and an outer peripheral end of the concavo-convex structure is located at a position on an inner side with respect to the outer peripheral end of the transparent covering layer.

Abstract: A method of manufacturing a tempered glass sheet includes: an arrangement step of arranging a plurality of glass sheets to be tempered, each having a substantially rectangular shape and a sheet thickness of 1.0 mm or less, in a support in an upright posture in a thickness direction at an interval of 10 mm or less, to thereby obtain an arrangement of glass sheets to be tempered; a tempering step of immersing the arrangement of glass sheets to be tempered in an ion exchange solution so as to subject the arrangement of glass sheets to be tempered to ion exchange treatment, to thereby obtain an arrangement of tempered glass sheets; an annealing step of annealing the arrangement of tempered glass sheets; and a removal step of removing each of tempered glass sheets forming the arrangement of tempered glass sheets from the support.

Abstract: Provided is a tempered glass substrate formed by a float method, comprising a bottom surface and a top surface, wherein a compression stress value of the bottom surface is larger than a compression stress value of the top surface.

Abstract: A method of manufacturing a tempered glass includes: subjecting a glass to be tempered to ion exchange treatment to obtain a tempered glass having a compressive stress layer; and subjecting the tempered glass to heat treatment at a heat treatment temperature of 300° C. or more and less than (a temperature of the ion exchange treatment+10° C.) so that a compressive stress (CS) of the compressive stress layer becomes from 120 to 1,200 MPa.

Abstract: Provided is a tempered glass substrate formed by a float method, comprising a bottom surface and a top surface, wherein a compression stress value of the bottom surface is larger than a compression stress value of the top surface.

Abstract: Provided is a method capable of producing a glass sheet with a bent portion with a high form accuracy. A reinforced glass sheet 1 with a flattened portion 11 and bent portions 12a and 13a continued to the flattened portion 11 is produced. A reinforcement step and a deformation step are performed. At the reinforcement step, a flat glass sheet is chemically reinforced to obtain a reinforced flat glass sheet 50. At the deformation step, the reinforced flat glass sheet 50 is heated and deformed to obtain the reinforced glass sheet 1 with the flattened portion 11 and the bent portions 12a and 13a.

Abstract: The invention provides a manufacturing method for a glass substrate with a thin film, which allows easy manufacturing of a less warped glass substrate with a thin film. The method performs: a deformation step of plastically deforming a glass substrate 10 to give a principal surface 10a thereof a curved shape so that the principal surface 10a of the glass substrate 10 is flattened in the final state after the formation of the thin film; and a thin film formation step of forming a thin film 11 on the principal surface 10a of the plastically deformed glass substrate 10.