Light-emitting diode (LED) devices are described herein. An LED device includes a substrate. The substrate has a top surface and a bottom surface opposite the top surface. The bottom surface has at least one indentation that runs lengthwise across at least a portion of the substrate. The LED device also includes a semiconductor surface mounted device (SMD) over the top surface of the substrate.

Provided is a display apparatus including a transparent substrate, display modules on the transparent substrate, an interconnect, a cover layer and a control device. The display module includes a first circuit board, LED devices and a molding layer. The first circuit board has first and second surfaces opposite to each other, and is disposed on the transparent substrate with the first surface facing the transparent substrate. The LED devices are disposed on the first surface and electrically connected to the first circuit board. The molding layer is disposed on the first surface to cover the LED devices. The interconnect is disposed in the first circuit board and on the second surface to electrically connect the display modules to each other. The cover layer covers the display modules and the interconnect. The control device is electrically connected to a portion of the interconnect adjacent to the edge of the transparent substrate.

A display device includes: a first base layer; a second base layer on the first base layer; a pixel circuit layer on the second base layer, the pixel circuit layer including a transistor; a display element layer on the pixel circuit layer, the display element layer including a light emitting element electrically connected to the transistor; a metal layer between the first base layer and the second base layer; and a heat pipe in contact with the metal layer.

A display module includes a substrate included a mounting surface on which a plurality of inorganic light emitting devices is mounted and a rear surface opposite the mounting surface, a metal plate facing the rear surface, and an adhesive layer provided between the rear surface of the substrate and the metal plate. An area of the substrate is equal to or greater than an area of the metal plate, the adhesive layer has an area corresponding to an area in which the metal plate faces the substrate, a coefficient of thermal expansion of the substrate is less than a coefficient of thermal expansion of the metal plate, and a ductility of the adhesive layer is greater than a ductility of the substrate and a ductility of the metal plate.

A mother panel for a display panel includes: a mother substrate including a display panel area and a dummy area surrounding the display panel area, the mother substrate having a cutting line defined thereon, wherein the cutting line is configured to be irradiated by a laser along a boundary between the display panel area and the dummy area; and a first heat dissipation pattern on the mother substrate, extending from the display panel area to the dummy area to overlap the cutting line, and including a first rod portion including a plurality of lower rods spaced apart from each other and a first body portion in the dummy area and contacting the first rod portion.

A display device includes a display panel including a first non-folding region, a folding region, and a second non-folding region sequentially arranged along a first direction, a first plate disposed under the display panel, a heat dissipation layer disposed under the first plate, and a first adhesive layer disposed between the first plate and the heat dissipation layer. The first adhesive layer includes a first sub adhesive layer overlapping the first non-folding region, and a second sub adhesive layer overlapping the second non-folding region, the first sub adhesive layer and the second sub adhesive layer are spaced apart from each other in the first direction, and a width of a first gap by which the first sub adhesive layer and the second sub adhesive layer are spaced apart is in a range of about 9 millimeters (mm) to about 12 mm.

A light emitting device including a first light emitting element and an optical member disposed over the first light emitting element. The optical member includes a light transmissive member and a ceramic component. The light transmissive member has a first upper surface, a second upper surface, and a lower surface opposing to the first upper surface and a second upper surface. The ceramic component is disposed on the second upper surface of the light transmissive member. The light transmissive member and the ceramic component each has a portion that overlaps with the first light emitting element when viewed in plan view.

The present disclosure discloses an array substrate and a display device including thereof. The array substrate includes a substrate, a shield metal over the substrate and a thin film transistor including an active layer with a channel region over the shield metal and a thermal gradient portion in at least one of the shield metal, the active layer and the array substrate so as to lower a temperature of a first area of the channel region than a temperature of a second area of the channel region. A cooling zone between the channel region and the shield metal is defined by the thermal gradient portion. The array substrate and a display device including the array substrate including the thermal gradient portion that defines the cooling zone between the thin film transistor and the shield metal can improves Kink effect, maintain high driving voltage, increase on current and/or improve switching properties.

A light emitting device includes light emitting element(s). A light transmissive member is on an upper surface of the light emitting element(s). An upper surface area of the light transmissive member is smaller than a lower surface area of the light transmissive member. The upper surface area of the light transmissive member is smaller than a sum of upper surface areas of each light emitting element(s). The lower surface area of the light transmissive member is larger than the sum of the upper surface areas of each light emitting element(s). A light reflective member is provided having a first light reflective member and an underfill. The first light reflective member covers surfaces of the light transmissive member and lateral surfaces of the light emitting element(s) to expose the upper surface of the light transmissive member. The underfill covers the lateral and lower surfaces of each light emitting element(s).

A display device includes a display panel including a first non-folding region, a folding region, and a second non-folding region sequentially arranged along a first direction, a first plate disposed under the display panel, a heat dissipation layer disposed under the first plate, and a first adhesive layer disposed between the first plate and the heat dissipation layer. The first adhesive layer includes a first sub adhesive layer overlapping the first non-folding region, and a second sub adhesive layer overlapping the second non-folding region, the first sub adhesive layer and the second sub adhesive layer are spaced apart from each other in the first direction, and a width of a first gap by which the first sub adhesive layer and the second sub adhesive layer are spaced apart is in a range of about 9 millimeters (mm) to about 12 mm.