A display device includes a substrate, an encapsulation portion on the substrate, a seal portion between the substrate and the encapsulation portion, and at least one dummy seal portion around the seal portion. The substrate and the encapsulation portion at least partially overlap each other in a first direction perpendicular to a surface of the substrate. The dummy seal portion is, when viewed in the first direction, arranged in an area between an edge of the seal portion and a boundary line of an overlapping area of the substrate and the encapsulation portion.

A display substrate is provided, which includes a base substrate, a plurality of pixel units arranged on the base substrate, and a function layer arranged at a light-emitting side of at least one pixel unit of the plurality of pixel units, wherein the function layer is configured to shield a light beam toward a first direction among light beams emitted by the at least one pixel unit, the function layer includes an organic layer and a light-shielding layer, and the light-shielding layer is arranged on a part of the organic layer, and configured to shield the light beam toward the first direction among the light beams emitted by the at least one pixel unit. An on-board display device and a method for manufacturing the display substrate are further provided.

A display substrate is provided, which includes a base substrate, a plurality of pixel units arranged on the base substrate, and a function layer arranged at a light-emitting side of at least one pixel unit of the plurality of pixel units, wherein the function layer is configured to shield a light beam toward a first direction among light beams emitted by the at least one pixel unit, the function layer includes an organic layer and a light-shielding layer, and the light-shielding layer is arranged on a part of the organic layer, and configured to shield the light beam toward the first direction among the light beams emitted by the at least one pixel unit. An on-board display device and a method for manufacturing the display substrate are further provided.

A light system includes a first substrate and a second substrate having the first substrate thereon. A light emitting diode (LED) is connected to the first substrate. An encapsulation layer covers the LED and at least a majority of the first substrate.

A light system includes a first substrate and a second substrate having the first substrate thereon. A light emitting diode (LED) is connected to the first substrate. An encapsulation layer covers the LED and at least a majority of the first substrate.

A light emitting device including a blue light emitting portion configured to emit blue light, a green light emitting portion configured to emit green light, a red light emitting portion configured to emit red light, in which the blue light emitting portion include a first near-UV light emitting diode chip and a first wavelength conversion portion for wavelength conversion of near-UV light emitted from the first near-UV light emitting diode chip, blue light emitted from the blue light emitting portion includes a first peak wavelength in a wavelength band corresponding to near-UV light and a second peak wavelength in a wavelength band corresponding to blue light, and an intensity of the first peak wavelength is in a range of 0% to 20% of intensity of the second peak wavelength.

A light emitting device including a blue light emitting portion configured to emit blue light, a green light emitting portion configured to emit green light, a red light emitting portion configured to emit red light, in which the blue light emitting portion include a first near-UV light emitting diode chip and a first wavelength conversion portion for wavelength conversion of near-UV light emitted from the first near-UV light emitting diode chip, blue light emitted from the blue light emitting portion includes a first peak wavelength in a wavelength band corresponding to near-UV light and a second peak wavelength in a wavelength band corresponding to blue light, and an intensity of the first peak wavelength is in a range of 0% to 20% of intensity of the second peak wavelength.

A light-emitting device includes a support; a light-emitting element on or above the support; a first wavelength conversion member on or above the light-emitting element, the first wavelength conversion member having an area larger than that of the light-emitting element in a top view; a first light-transmissive member covering a lower surface of an extension region of the first wavelength conversion member an a lateral surface of the light-emitting element; a first light-reflective member on lateral sides of the first wavelength conversion member and the first light-transmissive member; and a second wavelength conversion member disposed on or above the first wavelength conversion member. A thickness of the second wavelength conversion member above a peripheral portion of the first wavelength conversion member is smaller than a thickness of the second wavelength conversion member above a central portion of the first wavelength conversion member.

A light-emitting device includes light-emitting elements each having a light-extracting surface, light-transmissive members and a covering member, The light-transmissive members each has an upper surface and a lower surface facing the light-extracting surface of at least one of the light-emitting elements. The covering member integrally covers lateral surfaces of the light-emitting elements and lateral surfaces of the light-transmissive members such that a pair of electrodes of the light-emitting elements are exposed from the covering member at a lower surface of the covering member. At a lower surface of the light-emitting device, the light-emitting elements are arranged in a plurality of columns and a plurality of rows, an alignment direction of the electrodes in one of the light-emitting elements is rotated by 90° in a prescribed. direction from an alignment direction of the electrodes in an adjacent one of the light-emitting elements in one of a column direction and a row direction.

A light-emitting device includes light-emitting elements each having a light-extracting surface, light-transmissive members and a covering member, The light-transmissive members each has an upper surface and a lower surface facing the light-extracting surface of at least one of the light-emitting elements. The covering member integrally covers lateral surfaces of the light-emitting elements and lateral surfaces of the light-transmissive members such that a pair of electrodes of the light-emitting elements are exposed from the covering member at a lower surface of the covering member. At a lower surface of the light-emitting device, the light-emitting elements are arranged in a plurality of columns and a plurality of rows, an alignment direction of the electrodes in one of the light-emitting elements is rotated by 90° in a prescribed. direction from an alignment direction of the electrodes in an adjacent one of the light-emitting elements in one of a column direction and a row direction.