An organic EL display device including: a base substrate; an organic EL element formed on the base substrate, and including a plurality of organic EL layers arranged in a matrix shape; and a sealing film formed on the organic EL element, wherein a plurality of subpixels are defined in association with the plurality of organic EL layers, and a plurality of grooves are formed in the sealing film through the interstices among the plurality of subpixels, and a foreign-matter contact portion configured to be in contact with a foreign matter existing on the organic EL element is formed in the sealing film.

In a sealing film in which a first inorganic film, an organic film, and a second inorganic film are layered in that order, a high-wettability region having a relatively high wettability with respect to droplets configured to become the organic film, and a low-wettability region having a relatively low wettability with respect to the droplets, are arranged in an alternating manner on an organic film side surface of the first inorganic film.

Each of two divided masks next to each other in a second direction includes an overlapping region where two unit mask members partially overlap each other in a planar view, and a pitch in the second direction between openings on a plurality of divided masks each including the overlapping region is the same as a pitch in the second direction between the opening on each of a plurality of divided masks.

A first damming wall and a second damming wall are provided in a frame region. The first damming wall surrounds a display region formed from a first organic material and overlaps with a circumferential end part of an organic layer. The second damming wall includes a top part formed from a second organic material in the periphery of the first damming wall, and overlaps with an edge of the circumferential end part of the organic layer. The second damming wall includes a bottom part located closer to a base substrate, the bottom part being formed from a material constituting parts of switching elements.

The photomask includes: transmissive portions configured to form the opening portion, a semi-transmitted light portion configured to form the planar portion, and a light blocking portion configured to form each of the plurality of photo spacer portions. The light blocking portion is formed in an island shape between the transmissive portions arranged in a lattice shape, and an end portion of the light blocking portion is formed to extend, between two of the transmissive portions, along outer edges of the two of the transmissive portions.

Provided is an optical element substrate with which it is possible to increase the efficiency of use of light energy. An uneven structure on one substrate surface for an optical element is provided with a plurality of projections. The contour shape of the projections has an arc shape in plan view facing the one surface. The contour shape is formed by a first arc section and second arc section having different center points. The first arc section and second arc section bulge in mutually opposite directions.

Provided is an optical element substrate with which it is possible to increase the efficiency of use of light energy. An uneven structure on one substrate surface for an optical element is provided with a plurality of projections. The contour shape of the projections has an arc shape in plan view facing the one surface. The contour shape is formed by a first arc section and second arc section having different center points. The first arc section and second arc section bulge in mutually opposite directions.

Provided is a display apparatus where: a red light-emitting layer is formed as a layer that is common to a first subpixel, a second subpixel, and a third subpixel; a blue light-emitting layer is formed as a layer that is common to the first subpixel and the second subpixel; and the green light-emitting layer is formed only in the second subpixel.

To provide a composition having a very low refractive index, an organic photoelectronic element using the composition, and simple methods for producing such a composition and an organic photoelectronic element.

A composition comprising a fluorinated polymer, an organic semiconductor material and a dopant.

A first protruding portion that has a surface having liquid-philic properties to an ink material and has a frame shape and a second protruding portion that has a surface having liquid-repellent properties to the ink material, surrounds the first protruding portion such that at least a part of the first protruding portion is located inside, and has a frame shape are formed so as to surround an electro-optical element. Then, the ink material is applied to a region surrounded by the first protruding portion and is cured, and thus an organic layer that seals the electro-optical element is formed.