The manufacturing yield of a display device is improved. The resistance of a display device to ESD is increased. The display device includes a substrate, a display portion, a connection terminal, a first wiring, and a second wiring. The first wiring is electrically connected to the connection terminal and includes a portion positioned between the connection terminal and the display portion. The second wiring is electrically connected to the connection terminal, is positioned between the connection terminal and an end portion of the substrate, and includes a portion in which a side surface is exposed at an end portion of the substrate. The display portion includes a transistor. The transistor includes a semiconductor layer, a gate insulating layer, and a gate electrode. The semiconductor layer and the second wiring include a metal oxide.

A flexible electronic device is provided. The flexible electronic device includes a flexible dielectric substrate, a first electrode layer, a second electrode layer, a functional layer, a third electrode layer, and a capping layer. The flexible dielectric substrate has a first surface and an opposing second surface. The first electrode layer is arranged on the first surface of the flexible dielectric substrate. The second electrode layer is arranged on the second surface of the flexible dielectric substrate. The functional layer includes a light emitting layer or an electroactive layer and an electrolyte layer, arranged on the second electrode layer. The third electrode layer is arranged on the functional layer. The capping layer is arranged on the third electrode layer. A method of manufacturing the flexible electronic device is also provided.

A flexible electronic device is provided. The flexible electronic device includes a flexible dielectric substrate, a first electrode layer, a second electrode layer, a functional layer, a third electrode layer, and a capping layer. The flexible dielectric substrate has a first surface and an opposing second surface. The first electrode layer is arranged on the first surface of the flexible dielectric substrate. The second electrode layer is arranged on the second surface of the flexible dielectric substrate. The functional layer includes a light emitting layer or an electroactive layer and an electrolyte layer, arranged on the second electrode layer. The third electrode layer is arranged on the functional layer. The capping layer is arranged on the third electrode layer. A method of manufacturing the flexible electronic device is also provided.

The present invention relates to an OLED standing lamp in which a lighting unit includes a band-shaped transparent film and a band-shaped casing plate, which are disposed on a front surface and a back surface of a band-shaped OLED lighting sheet, respectively, a support body has one end portion at an upper side thereof which is fastened to one end portion of the lighting unit and supports the lighting unit so that the lighting unit is spaced apart from the ground, and a base is extended on the ground and supports the support body fastened to the lighting unit, thereby minimizing a thickness and providing light having improved brightness, by adopting an OLED as a light source.

A method of producing a vapor deposition mask includes the steps of (i) preparing a mixture which contains a resin material and an inorganic filler and (ii) shaping, with use of a reactor which serves as a shaping die, the mixture so that the mask substrate is shaped, the mask substrate containing a resin made of the resin material and the inorganic filler mixed in the resin.

A method of producing a vapor deposition mask includes the steps of (i) preparing a mixture which contains a resin material and an inorganic filler and (ii) shaping, with use of a reactor which serves as a shaping die, the mixture so that the mask substrate is shaped, the mask substrate containing a resin made of the resin material and the inorganic filler mixed in the resin.

The present invention relates to a multilayer barrier film capable of encapsulating a moisture and/or oxygen sensitive electronic or optoelectronic device, the barrier film including at least one nanostructured layer including reactive nanoparticles capable of interacting with moisture and/or oxygen, the reactive nanoparticles being distributed within a polymeric binder, and at least one ultraviolet light neutralizing layer comprising a material capable of absorbing ultraviolet light, thereby limiting the transmission of ultraviolet light through the barrier film.

The present invention relates to a multilayer barrier film capable of encapsulating a moisture and/or oxygen sensitive electronic or optoelectronic device, the barrier film including at least one nanostructured layer including reactive nanoparticles capable of interacting with moisture and/or oxygen, the reactive nanoparticles being distributed within a polymeric binder, and at least one ultraviolet light neutralizing layer comprising a material capable of absorbing ultraviolet light, thereby limiting the transmission of ultraviolet light through the barrier film.

Provided are a heterocyclic compound which emits blue light and is represented by General Formula (G1) below, and a light-emitting element, a light-emitting device, an electronic device and a lighting device which are formed using the heterocyclic compound represented by General Formula (G1) below. The use of the heterocyclic compound represented by General Formula (G1) makes it possible to provide a light-emitting element which has high emission efficiency, and also a light-emitting device, an electronic device and a lighting device which have reduced power consumption. ##STR00001##

Provided are a heterocyclic compound which emits blue light and is represented by General Formula (G1) below, and a light-emitting element, a light-emitting device, an electronic device and a lighting device which are formed using the heterocyclic compound represented by General Formula (G1) below. The use of the heterocyclic compound represented by General Formula (G1) makes it possible to provide a light-emitting element which has high emission efficiency, and also a light-emitting device, an electronic device and a lighting device which have reduced power consumption. ##STR00001##