A light emitting device package according to an embodiment may include a first package body including first and second openings passing through the upper surface and lower surface thereof; a second package body disposed on the first package body and including a third opening passing through the upper surface and lower surface thereof; a light emitting device disposed in the third opening; a first resin disposed between the upper surface of the first package body and the light emitting device; and a second resin disposed in the third opening. According to the embodiment, the upper surface of the first package body may be coupled to the lower surface of the second package body, the first package body may include a recess recessed from the upper surface of the first package body to the lower surface of the first package body, the first resin may be disposed in the recess, the first resin and the second resin include materials different from each other, and the first resin may be in contact with the light emitting device and the second resin.

A semiconductor chip includes: a base substrate; a conductive pad on one surface of the base substrate; an insulating layer on the one surface of the base substrate and having an opening exposing a portion of the conductive pad; and a bump on the exposed portion of the conductive pad and on the insulating layer around the opening. The bump includes a plurality of concave portions corresponding to the opening and is arranged in a longitudinal direction of the bump.

A semiconductor chip includes: a base substrate; a conductive pad on one surface of the base substrate; an insulating layer on the one surface of the base substrate and having an opening exposing a portion of the conductive pad; and a bump on the exposed portion of the conductive pad and on the insulating layer around the opening. The bump includes a plurality of concave portions corresponding to the opening and is arranged in a longitudinal direction of the bump.

The semiconductor device includes: a semiconductor substrate; a conductor layer formed over the semiconductor substrate and having an upper surface and a lower surface; a conductive pillar formed on the upper surface of the conductor layer and having an upper surface, a lower surface, and a sidewall; a protection film covering the upper surface of the conductor layer and having an opening which exposes the upper surface and the sidewall of the conductive pillar; and a protection film covering the sidewall of the conductive pillar. Then, in plan view, the opening of the protection film is wider than the upper surface of the conductive pillar and exposes an entire region of an upper surface of the conductive pillar.

An integrated circuit device includes: a substrate having an active surface, an inactive surface, a first region and a second region; a device structure on the active surface, and including individual devices disposed in the first region and a target through-region disposed in the second region; a multilayer wiring structure including wiring layers, wherein at least one wiring layer among the wiring layers has a landing pad overlapping the target through-region; and a through-via structure connected to the landing pad by penetrating through the second region and the target through-region, wherein the target through-region includes first insulating material patterns and dummy device patterns, wherein the first insulating material patterns each have a first area, wherein the dummy device patterns are on the active surface and each have a second area smaller than the first area, and wherein the first insulating material patterns are alternatively arranged with the dummy device patterns.

An integrated circuit device includes: a substrate having an active surface, an inactive surface, a first region and a second region; a device structure on the active surface, and including individual devices disposed in the first region and a target through-region disposed in the second region; a multilayer wiring structure including wiring layers, wherein at least one wiring layer among the wiring layers has a landing pad overlapping the target through-region; and a through-via structure connected to the landing pad by penetrating through the second region and the target through-region, wherein the target through-region includes first insulating material patterns and dummy device patterns, wherein the first insulating material patterns each have a first area, wherein the dummy device patterns are on the active surface and each have a second area smaller than the first area, and wherein the first insulating material patterns are alternatively arranged with the dummy device patterns.

Produced is a metal ball which suppresses an emitted dose. Contained are the steps of melting a pure metal by heating the pure metal at a temperature which is higher than a boiling point of an impurity to be removed, higher than a melting point of the pure metal, and lower than a boiling point of the pure metal, the pure metal containing a U content of 5 ppb or less, a Th content of 5 ppb or less, purity of 99.9% or more and 99.995% or less, and a Pb or Bi content or a total content of Pb and Bi of 1 ppm or more, and the pure metal having the boiling point higher than the boiling point at atmospheric pressure of the impurity to be removed; and sphering the molten pure metal in a ball.

Produced is a metal ball which suppresses an emitted dose. Contained are the steps of melting a pure metal by heating the pure metal at a temperature which is higher than a boiling point of an impurity to be removed, higher than a melting point of the pure metal, and lower than a boiling point of the pure metal, the pure metal containing a U content of 5 ppb or less, a Th content of 5 ppb or less, purity of 99.9% or more and 99.995% or less, and a Pb or Bi content or a total content of Pb and Bi of 1 ppm or more, and the pure metal having the boiling point higher than the boiling point at atmospheric pressure of the impurity to be removed; and sphering the molten pure metal in a ball.

Provided herein may be an electronic device. The electronic device may include a substrate provided with a plurality of connecting pads including a first metal, a semiconductor chip on an area of the substrate, facing the connecting pads, and including a base substrate including a first surface facing the substrate, and a second surface opposite the first surface, a plurality of connecting terminals on the first surface, facing the connecting pads, and including a second metal, and a non-adhesive polymer layer on the second surface, and a conductive joining layer electrically connecting, and interposed between, respective ones of the connecting pads to the connecting terminals, and including a diffusion layer in which the first metal and the second metal are mixed.

Provided herein may be an electronic device. The electronic device may include a substrate provided with a plurality of connecting pads including a first metal, a semiconductor chip on an area of the substrate, facing the connecting pads, and including a base substrate including a first surface facing the substrate, and a second surface opposite the first surface, a plurality of connecting terminals on the first surface, facing the connecting pads, and including a second metal, and a non-adhesive polymer layer on the second surface, and a conductive joining layer electrically connecting, and interposed between, respective ones of the connecting pads to the connecting terminals, and including a diffusion layer in which the first metal and the second metal are mixed.