A display device includes a plurality of pixels each including a first light emitting element with a first light reflecting layer, a second light emitting element with a second light reflecting layer, and a third light emitting element with a third light reflecting layer, arranged in a two-dimensional matrix. Each of the light emitting elements includes a first electrode, an organic layer, and a second electrode. Grooves that each have a light shielding layer are formed in a boundary region between the light emitting elements. A bottom of the first groove and a bottom of the third groove are located at a position higher than a top surface of the first light reflecting layer. A bottom of the second groove is located at a position higher than a top surface of the second light reflecting layer.

A display device includes a plurality of pixels each including a first light emitting element with a first light reflecting layer, a second light emitting element with a second light reflecting layer, and a third light emitting element with a third light reflecting layer, arranged in a two-dimensional matrix. Each of the light emitting elements includes a first electrode, an organic layer, and a second electrode. Grooves that each have a light shielding layer are formed in a boundary region between the light emitting elements. A bottom of the first groove and a bottom of the third groove are located at a position higher than a top surface of the first light reflecting layer. A bottom of the second groove is located at a position higher than a top surface of the second light reflecting layer.

A display unit includes: a light-emitting section including a light-emitting element that has a first electrode, an organic layer including a light-emitting layer, and a second electrode in this order; and a reflector that is provided at a periphery of the light-emitting section to reflect light from the light-emitting section, and has a conductive layer, the conductive layer being electrically coupled to the second electrode of the light-emitting element.

A display unit is provided with a plurality of pixels that are two-dimensionally arranged and each include an organic electroluminescence element emitting light of one of a plurality of colors. The pixels are arranged along one direction for each of light emission colors. The pixels each include a first insulating film, a second insulating film, and an organic layer. The first insulating film has openings for the respective pixels. The second insulating film extends along the arrangement direction for each of the light emission colors, in a region between pixels of different light emission colors, out of the plurality of pixels, on the first insulating film. The organic layer is formed in each of the openings, and includes a light-emitting layer. The first insulating film includes a recess that connects together the openings of pixels of the same light emission color, out of the plurality of pixels.

A light-emitting device (20) includes a first light-emitting member (10a) and a second light-emitting member (10b). Each of the first light-emitting member (10a) and the second light-emitting member (10b) includes a first surface (12) and a second surface (14), and light is emitted from the first surface (12). The first light-emitting member (10a) includes a first region (16a) and a second region (16b), the first region (16a) of the first light-emitting member (10a) being located on the second surface (14) side of the second light-emitting member (10b) and the second region (16b) of the first light-emitting member (10a) being located on the first surface (12) side of the second light-emitting member (10b).

A display device includes a plurality of pixels each including a first light emitting element with a first light reflecting layer, a second light emitting element with a second light reflecting layer, and a third light emitting element with a third light reflecting layer, arranged in a two-dimensional matrix. Each of the light emitting elements includes a first electrode, an organic layer, and a second electrode. Grooves that each have a light shielding layer are formed in a boundary region between the light emitting elements. A bottom of the first groove and a bottom of the third groove are located at a position higher than a top surface of the first light reflecting layer. A bottom of the second groove is located at a position higher than a top surface of the second light reflecting layer.

A display device includes a plurality of pixels each including a first light emitting element with a first light reflecting layer, a second light emitting element with a second light reflecting layer, and a third light emitting element with a third light reflecting layer, arranged in a two-dimensional matrix. Each of the light emitting elements includes a first electrode, an organic layer, and a second electrode. Grooves that each have a light shielding layer are formed in a boundary region between the light emitting elements. A bottom of the first groove and a bottom of the third groove are located at a position higher than a top surface of the first light reflecting layer. A bottom of the second groove is located at a position higher than a top surface of the second light reflecting layer.

Provided is an electroluminescent device that emits light of a single color and includes a plurality of functional layers, in which an absorption peak is included in the emission wavelength and at least one absorption peak is included in a complementary color region of an emission wavelength in the range of 380 nm to 780 nm, an absolute value of a deviation (uv) of a color coordinate of front reflected light at the time of white color illumination from a blackbody locus is below 0.02, and a refractive index and a film thickness of each of the plurality of functional layers are determined to satisfy the formula D()D(0)cos (0.sub.D60 degrees) when an angle dependence of emission intensity is defined as D().

To provide a display apparatus and an electronic device that have increased efficiency of light extraction from a light-emitting element. A display apparatus including: a plurality of light-emitting elements that constitutes pixels; a light guiding/scattering layer that is provided on the plurality of light-emitting elements and scatters light emitted from the plurality of light-emitting elements; and a reflection partition wall that separates the light guiding/scattering layer at least with respect to each of the pixels and reflects the light emitted from the plurality of light-emitting elements.

Disclosed is an active matrix substrate that includes a plurality of TFTs. The active matrix substrate 11 includes a substrate 100, TFTs, a light transmission film 204, and a protection film Cap4. The TFTs are provided on the substrate 100 so as to correspond to a plurality of pixels, respectively. The light transmission film 204 is provided between the TFTs and the substrate 100. The protection film Cap4 covers an end surface 204b of the light transmission film 204, the end surface 204b being not parallel with the substrate 100. The TFT includes a gate electrode, a gate insulating film, a semiconductor film, a drain electrode, and a source electrode. The protection film Cap4 is arranged between the light transmission film 204 and the semiconductor film of the TFT.