Structures and formation methods of chip packages are provided. The method includes disposing a semiconductor die over a carrier substrate. The method also includes disposing an interposer substrate over the carrier substrate. The interposer substrate has a recess that penetrates through opposite surfaces of the interposer substrate. The interposer substrate has interior sidewalls surrounding the semiconductor die, and the semiconductor die is as high as or higher than the interposer substrate. The method further includes forming a protective layer in the recess of the interposer substrate to surround the semiconductor die. In addition, the method includes removing the carrier substrate and stacking a package structure over the interposer substrate.

An LED chip initial structure, a substrate structure for carrying the LED chip initial structure, a chip transferring method using the LED chip initial structure, and an LED image display device manufactured by the LED chip transferring method are provided. The LED chip initial structure includes an LED chip main body and a conductive electrode. One of a top side and a bottom side of the LED chip main body is a temporary electrodeless side, another one of the top side and the bottom side of the LED chip main body is a connecting electrode side, and the temporary electrodeless side has an unoccupied surface. The conductive electrode is disposed on the connecting electrode side of the LED chip main body so as to electrically connect to the LED chip main body. The LED chip initial structure is adhered to a hot-melt material through the conductive electrode.

An electronic device includes: a first layer that includes first electronic components in a group and has a first through space between adjacent ones of the first electronic components; and a second layer that is stacked over the first layer and includes second electronic components which are coupled to the first electronic components and a second through space between adjacent ones of the second electronic components, the second through space being partially overlapping with the first through space.

An electronic device includes: a first layer that includes first electronic components in a group and has a first through space between adjacent ones of the first electronic components; and a second layer that is stacked over the first layer and includes second electronic components which are coupled to the first electronic components and a second through space between adjacent ones of the second electronic components, the second through space being partially overlapping with the first through space.

A solder material may include nickel and tin. The nickel may include first and second amounts of particles. A sum of the particle amounts is a total amount of nickel or less. The first amount is between 5 at % and 60 at % of the total amount of nickel. The second amount is between 10 at % and 95 at % of the total amount of nickel. The particles of the first amount have a first size distribution, the particles of the second amount have a second size distribution, 30% to 70% of the first amount have a particle size in a range of about 5 μm around a particle size the highest number of particles have according to the first size distribution, and 30% to 70% of the second amount have a particle size in a range of about 5 μm around a particle size the highest number of particles have according to the second size distribution.

A semiconductor device includes a semiconductor chip having an electrode pad, a terminal having a terminal pad, and a bonding wire. The bonding wire includes a first end portion, a first bonded portion bonded to the electrode pad, a loop portion extending between the semiconductor chip and the terminal, and a second bonded portion bonded to the terminal pad. The second bonded portion is a wedge bonded portion comprising a second end portion of the bonding wire opposite to the first end portion. A length of the first bonded portion in the first direction is greater than a length of the second bonded portion in the first direction.

A semiconductor device includes a semiconductor chip having an electrode pad, a terminal having a terminal pad, and a bonding wire. The bonding wire includes a first end portion, a first bonded portion bonded to the electrode pad, a loop portion extending between the semiconductor chip and the terminal, and a second bonded portion bonded to the terminal pad. The second bonded portion is a wedge bonded portion comprising a second end portion of the bonding wire opposite to the first end portion. A length of the first bonded portion in the first direction is greater than a length of the second bonded portion in the first direction.

A semiconductor package and a method of forming the same are provided. The semiconductor package includes one or a plurality of chips on a substrate, bumps disposed below each of the one or plurality of chips, an underfill material layer on the substrate, on a side surface of each of the bumps, and extending to side surfaces of the one or plurality of chips, and a mold layer on the substrate and contacting the underfill material layer. The underfill material layer includes a first side portion, a second side portion on the first side portion and having a slope, steeper than a slope of the first side portion, and a third side portion on the second side portion and having a slope that is less steep than a slope of the second side portion.

A semiconductor device includes a semiconductor element, a base body, a conductive adhesive member, and a sealing member. The semiconductor element includes a substrate, a semiconductor element structure provided on the substrate, and p-electrode and n-electrode provided on the semiconductor element structure. The semiconductor element is disposed on the base body. The conductive adhesive member electrically connects the p-electrode and the n-electrode to the base body. The sealing member is provided to cover the semiconductor element on an upper surface of the base body. The conductive adhesive member contains particles selected from a group of (i) surface-treated particles having a particle diameter of 1 nm or more and 100 μm or less and (ii) particles that coexist with a dispersing agent.

Thermally conductive adhesive materials having a first metallic component with a high melting point metal; a second metallic component having a low melting point metal; a fatty acid, an optional amine, an optional triglyceride and optional additives. Also provided are methods of making the same and uses thereof for adhering electronic components to substrates.