Provided is a display device including: a base substrate; a light-emitting element provided on one surface side of the base substrate; and a sealing film provided covering the light-emitting element, wherein the sealing film includes a first inorganic film and a second inorganic film sequentially provided covering the light-emitting element, and a resin layer provided in an island shape between the first inorganic film and the second inorganic film.

A vapor deposition mask is provided with: a resin film, which has at least one of first to third opening patterns in which first to third openings, for forming first to third subpixels that configure one pixel of a display panel, are disposed with a fixed periodicity; and a metal support layer, which is bonded to the resin film and has an opening pattern for fourth openings that are formed so as to be able to encompass all of the first to third openings of the resin film. In regions of the resin film exposed by the fourth openings of the metal support layer, one or two of the first to third openings of the resin film are formed.

A vapor deposition mask is provided with: a resin film, which has at least one of first to third opening patterns in which first to third openings, for forming first to third subpixels that configure one pixel of a display panel, are disposed with a fixed periodicity; and a metal support layer, which is bonded to the resin film and has an opening pattern for fourth openings that are formed so as to be able to encompass all of the first to third openings of the resin film. In regions of the resin film exposed by the fourth openings of the metal support layer, one or two of the first to third openings of the resin film are formed.

A method of manufacturing a display panel includes preparing a work substrate that includes a mother substrate that has a plurality of cell areas, a light emitting element layer formed in each of the cell areas, and an encapsulation layer formed on each cell area, disposing a plurality of protective films in the cell areas, respectively, that cover the light emitting element layer and the encapsulation layer, cutting the work substrate along cutting lines at an outer side of the protective films of each cell area to form a preliminary display panel, grinding side surfaces of the preliminary display panel, and removing the protective films from each ground preliminary display panel to form the display panel.

Organometallic compounds comprising an imidazole carbene ligand having a N-containing ring fused to the imidazole ring are provided. In particular, the N-containing ring fused to the imidazole ring may contain one nitrogen atom or more than one nitrogen atom. These compounds may demonstrate high photoluminescent (PL) efficiency, Gaussian emission spectra, and/or short excited state lifetimes. These materials may be especially useful as blue phosphorescent emitters.

Organometallic compounds comprising an imidazole carbene ligand having a N-containing ring fused to the imidazole ring are provided. In particular, the N-containing ring fused to the imidazole ring may contain one nitrogen atom or more than one nitrogen atom. These compounds may demonstrate high photoluminescent (PL) efficiency, Gaussian emission spectra, and/or short excited state lifetimes. These materials may be especially useful as blue phosphorescent emitters.

An organic EL display device with higher resolution, suppressed power consumption while being driven and low manufacturing cost, and no color mixing and color shifting between subpixels adjacent to each other is provided. In a B subpixel, a first separation layer is provided between a common blue-light-emitting layer and a common green-light-emitting layer. In a G subpixel, a second separation layer is provided between the common green-light-emitting layer and a common red-light-emitting layer.

A display device of the present disclosure includes a pixel region including a pixel including a light emitting unit arranged on a substrate, and, in the pixel region, an anode electrode of the light emitting unit is provided with a region including a pixel inclined with respect to a substrate surface. Then, an electrode surface of the anode electrode has an inclination angle according to a surface shape of a base insulating layer. An electronic device of the present disclosure includes the display device having the configuration described above.

A manufacturing method of a mask sheet includes a film formation step for forming a metal layer provided with a plurality of openings on a mask substrate, and a shaping step for shaping the metal layer using pulse electrolysis.

A manufacturing method for an electronic device 1 includes: a bonding step S09 of bonding a band-shaped sealing member 11, extending in one direction, along the one direction such that a portion of each of a first electrode layer 5 and a second electrode layer 9 in each electronic device part 10 is exposed and that the sealing member straddles a plurality of electronic device parts 10; a cutting step S05 of making a cut in a sealing body 20 that is a parent material of the sealing member 11 and has a larger dimension in the width direction, orthogonal to the one direction, than the sealing member 11 so as to form a width being the width of the sealing member 11, before the bonding step S09; and a separation step S08 of separating the sealing member 11 from the sealing body 20 in which the cut has been made, after the cutting step S05 and before the bonding step S09. In the bonding step S09, the sealing member 11, separated from the sealing body 20 in the separation step S08, is bonded.