A semiconductor structure includes a semiconductor chip, a substrate and a plurality of bump segments. The bump segments include a first group of bump segments and a second group of bump segments collectively extended from an active surface of the semiconductor chip toward the substrate. Each bump segment of the second group of bump segments has a cross-sectional area greater than a cross-sectional area of each bump segment of the first group of bump segments. The first group of bump segments includes a first bump segment and a second bump segment. Each of the first bump segment and the second bump segment includes a tapered side surface exposed to an environment outside the bump segments. A portion of a bottom surface of the second bump segment is stacked on the first bump segment, and another portion of the bottom surface of the second bump segment is exposed to the environment.

A semiconductor structure includes a semiconductor chip, a substrate and a plurality of bump segments. The bump segments include a first group of bump segments and a second group of bump segments collectively extended from an active surface of the semiconductor chip toward the substrate. Each bump segment of the second group of bump segments has a cross-sectional area greater than a cross-sectional area of each bump segment of the first group of bump segments. The first group of bump segments includes a first bump segment and a second bump segment. Each of the first bump segment and the second bump segment includes a tapered side surface exposed to an environment outside the bump segments. A portion of a bottom surface of the second bump segment is stacked on the first bump segment, and another portion of the bottom surface of the second bump segment is exposed to the environment.

A light emitting device package including a package body comprising a first opening; a light emitting device disposed in the first opening and including a first bonding part and a second bonding part; a first conductor disposed below the first bonding part; and a second conductor disposed below the second bonding part. Further, the first conductor is electrically connected to the first bonding part, and the second conductor is electrically connected to the second bonding part.

A light emitting device package including a package body comprising a first opening; a light emitting device disposed in the first opening and including a first bonding part and a second bonding part; a first conductor disposed below the first bonding part; and a second conductor disposed below the second bonding part. Further, the first conductor is electrically connected to the first bonding part, and the second conductor is electrically connected to the second bonding part.

An LED device includes: a first semiconductor layer of a first type; a second semiconductor layer of a second type; a light emitting layer formed between the first semiconductor layer and the second semiconductor layer and configured to emit light; and a filter formed on the second semiconductor layer and configured to transmit light in the second wavelength band within the first wavelength band. The filter includes a defect layer, first refractive layers, and second refractive layers having a refractive index greater than a refractive index of the first refractive layers, the first refractive layers and the second refractive layers are formed alternately on one side and other side of the defect layer. A thickness of the defect layer is determined based on a center wavelength of the first wavelength band, a peak wavelength of the second wavelength band and a refractive index of the defect layer.

An LED device includes: a first semiconductor layer of a first type; a second semiconductor layer of a second type; a light emitting layer formed between the first semiconductor layer and the second semiconductor layer and configured to emit light; and a filter formed on the second semiconductor layer and configured to transmit light in the second wavelength band within the first wavelength band. The filter includes a defect layer, first refractive layers, and second refractive layers having a refractive index greater than a refractive index of the first refractive layers, the first refractive layers and the second refractive layers are formed alternately on one side and other side of the defect layer. A thickness of the defect layer is determined based on a center wavelength of the first wavelength band, a peak wavelength of the second wavelength band and a refractive index of the defect layer.

The disclosure provides a light-emitting device and a displayer. Herein, the light-emitting device includes a substrate, a light-emitting chip, a first light-transmitting layer, a second light-transmitting layer and a nano coating. The light transmittance of the second light-transmitting layer is greater than the light transmittance of the first light-transmitting layer. A reference surface corresponding to the light-emitting chip is arranged above the substrate, and the reference surface is higher than the bottom surface of the light-emitting chip and not higher than the top surface of the light-emitting chip. The first light-transmitting layer covers the surface of the light-emitting chip below the reference surface, and the second light-transmitting layer covers the surface of the light-emitting chip above the reference surface. The nano coating covers the outer surface of the first light-transmitting layer, the outer surface of the second light-transmitting layer and the side surface of the substrate.

The disclosure provides a light-emitting device and a displayer. Herein, the light-emitting device includes a substrate, a light-emitting chip, a first light-transmitting layer, a second light-transmitting layer and a nano coating. The light transmittance of the second light-transmitting layer is greater than the light transmittance of the first light-transmitting layer. A reference surface corresponding to the light-emitting chip is arranged above the substrate, and the reference surface is higher than the bottom surface of the light-emitting chip and not higher than the top surface of the light-emitting chip. The first light-transmitting layer covers the surface of the light-emitting chip below the reference surface, and the second light-transmitting layer covers the surface of the light-emitting chip above the reference surface. The nano coating covers the outer surface of the first light-transmitting layer, the outer surface of the second light-transmitting layer and the side surface of the substrate.

A semiconductor package may include a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, and an adhesive layer between the first semiconductor chip and the second semiconductor chip. The first semiconductor chip may include a semiconductor substrate and a plurality of protection layers on the semiconductor substrate. The topmost layer of the protection layers may have a top surface with convex portions and concave portions, and the convex portions and the concave portions may be in contact with the adhesive layer.

A semiconductor package may include a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, and an adhesive layer between the first semiconductor chip and the second semiconductor chip. The first semiconductor chip may include a semiconductor substrate and a plurality of protection layers on the semiconductor substrate. The topmost layer of the protection layers may have a top surface with convex portions and concave portions, and the convex portions and the concave portions may be in contact with the adhesive layer.