A display apparatus including a circuit board, at least one LED stack configured to emit light, electrode pads disposed on the at least one LED stack and electrically connected to the at least one LED stack, and electrodes disposed on the electrode pads and electrically connected to the electrode pads, respectively, in which each of the electrodes has a fixed portion that is fixed to one of the electrode pads and an extending portion that is spaced apart from the one of the electrode pads, and the electrodes include at least two metal layers having different thermal expansion coefficients from each other.

A package for integrated circuits includes a base substrate having a mounting face. A first electronic chip has a top face electrically connected to the mounting face and a bottom face mounted to the mounting face by an adhesive layer. A second electronic chip has a bottom face covered with a thermal interface layer and a top face electrically connected to the mounting face. A heat sink includes a first part embedded in the adhesive layer, a second part having a bottom face in contact with the layer of thermal interface material and a top face, and a connection part between the first part and the second part. A coating encapsulates the first and second electronic chips and the heat sink. The top face of the second part of the heat sink exposed from the encapsulating coating.

Disclosed are semiconductor packages and/or methods of fabricating the same. The semiconductor package comprises a substrate, a semiconductor chip on the substrate, and a molding layer. The semiconductor chip includes a circuit region and an edge region around the circuit region. The molding layer covers a sidewall of the semiconductor chip. The semiconductor chip includes a reforming layer on the edge region. A top surface of the reforming layer is coplanar with a top surface of the molding layer.

Disclosed are semiconductor packages and/or methods of fabricating the same. The semiconductor package comprises a substrate, a semiconductor chip on the substrate, and a molding layer. The semiconductor chip includes a circuit region and an edge region around the circuit region. The molding layer covers a sidewall of the semiconductor chip. The semiconductor chip includes a reforming layer on the edge region. A top surface of the reforming layer is coplanar with a top surface of the molding layer.

A semiconductor package includes: a lower substrate including a lower wiring layer; a semiconductor chip disposed on the lower substrate, the semiconductor chip including a first surface facing the lower substrate and a second surface opposite to the first surface; an upper substrate disposed on the lower substrate and the semiconductor chip, the upper substrate including a lower surface on which support members protruding toward the second surface of the semiconductor chip are disposed; a connection structure disposed between the lower substrate and the upper substrate; an encapsulant filling a space between the lower substrate and the upper substrate and encapsulating at least a portion of the semiconductor chip and the connection structure; and adhesive members disposed on the second surface of the semiconductor chip such as to correspond to the support members, respectively, the adhesive members disposed in contact with the second surface and the support members.

A method for bonding semiconductor dies, resulting semiconductor devices, and associated systems and methods are disclosed. In some embodiments, the method includes depositing a first material on the first semiconductor die. The first material has a first outer surface and a first chemical composition at the first outer surface. The method also includes depositing a second material on the second semiconductor die. The second material has a second outer surface and a second chemical composition at the second outer surface that is different from the first chemical composition. The method also includes stacking the dies. The second outer surface of the second semiconductor die is in contact with the first outer surface of the first semiconductor die in the stack. The method also includes reacting the first outer surface with the second outer surface. The reaction causes the first outer surface to bond to the second outer surface.

In various embodiments, a method for forming a bonded structure is disclosed. The method can comprise mounting a first integrated device die to a carrier. After mounting, the first integrated device die can be thinned. The method can include providing a first layer on an exposed surface of the first integrated device die. At least a portion of the first layer can be removed. A second integrated device die can be directly bonded to the first integrated device die without an intervening adhesive.

In various embodiments, a method for forming a bonded structure is disclosed. The method can comprise mounting a first integrated device die to a carrier. After mounting, the first integrated device die can be thinned. The method can include providing a first layer on an exposed surface of the first integrated device die. At least a portion of the first layer can be removed. A second integrated device die can be directly bonded to the first integrated device die without an intervening adhesive.

A semiconductor device is disclosed. The semiconductor device comprises a redistribution structure, a processor die, and a metal post. The metal post has a first end, and a second end. The metal post is connected to the redistribution structure at the first end. The first end has a first width. The second end has a second width. The metal post has a waist width. The first width is greater than the waist width. The second width is greater than the waist width. The metal post has a side surface. The side surface is inwardly curved or outwardly curved.

A semiconductor device is disclosed. The semiconductor device comprises a redistribution structure, a processor die, and a metal post. The metal post has a first end, and a second end. The metal post is connected to the redistribution structure at the first end. The first end has a first width. The second end has a second width. The metal post has a waist width. The first width is greater than the waist width. The second width is greater than the waist width. The metal post has a side surface. The side surface is inwardly curved or outwardly curved.