In various embodiments, a chip package is provided. The chip package may include a chip comprising a chip metal surface, a metal contact structure electrically contacting the chip metal surface, a packaging material at least partially encapsulating the chip and the metal contact structure, and a chemical compound physically contacting the packaging material and at least one of the chip metal surface and the metal contact structure, wherein the chemical compound may be configured to improve an adhesion between the metal contact structure and the packaging material and/or between the chip metal surface and the packaging material, as compared with an adhesion in an arrangement without the chemical compound, wherein the chemical compound is essentially free from functional groups comprising sulfur, selenium or tellurium.

A structure includes a thermal interface material, and a Perforated Foil Sheet (PFS) including through-openings therein, with a first portion of the PFS embedded in the thermal interface material. An upper layer of the thermal interface material is overlying the PFS, and a lower layer of thermal interface material is underlying the PFS. The thermal interface material fills through-openings in the PFS.

Provided are a chip-on-film (COF) semiconductor package capable of improving connection characteristics and a display apparatus including the package. The COF semiconductor package includes a film substrate, a conductive interconnection located on at least one surface of the film substrate and an output pin connected to the conductive interconnection and located at one edge on a first surface of the film substrate, a semiconductor chip connected to the conductive interconnection and mounted on the first surface of the film substrate, a solder resist layer on the first surface of the film substrate to cover at least a portion of the conductive interconnection, and at least one barrier dam on the solder resist layer between the semiconductor chip and the output pin.

A highly-reliable semiconductor device has improved adhesion between a sealing material and a sealed metal member and/or a case member. In some implementations, the semiconductor device includes: a laminated substrate on which a semiconductor element is mounted; and a sealing material. In some implementations, the sealing material contains an epoxy base resin, a curing agent, and a phosphonic acid.

A semiconductor structure includes a semiconductor element and a first bonding structure. The semiconductor element has a first surface and a second surface opposite to the first surface. The first bonding structure is disposed adjacent to the first surface of the semiconductor element, and includes a first electrical connector, a first insulation layer surrounding the first electrical connector and a first conductive layer surrounding the first insulation layer.

A resin composition has a high glass transition temperature and is highly adhesive to a member made of metal, ceramics, or the like. The resin composition includes a thermosetting base resin, a thermoplastic resin powder, a curing agent, and an inorganic filler, a cured resin product formed by curing the resin composition, and an electrical member.

An electronic device includes a circuit board, a lower IC package in which a lower IC chip is sealed on a lower package substrate by a lower resin portion being mounted on the substrate via a lower solder connection portion, and an upper IC package in which an upper IC chip is sealed on an upper package substrate by an upper resin portion being mounted on the lower IC package via an upper solder connection portion. The upper IC package is provided with a rigid body having a smaller linear expansion coefficient in a plane direction than that of the upper resin portion. The rigid body is arranged directly above a boundary between the lower IC chip and the lower resin portion.

An article includes a solid circuit die on a first major surface of a substrate, wherein the solid circuit die includes an arrangement of contact pads, and wherein at least a portion of the contact pads in the arrangement of contact pads are at least partially exposed on the first major surface of the substrate to provide an arrangement of exposed contact pads; a guide layer including an arrangement of microchannels, wherein the guide layer contacts the first major surface of the substrate such that at least some microchannels in the arrangement of microchannels overlie the at least some exposed contact pads in the arrangement of exposed contact pads; and a conductive particle-containing liquid in at least some of the microchannels. Other articles and methods of manufacturing the articles are described.

An epoxy resin composition for encapsulating a semiconductor device and a semiconductor device encapsulated by the epoxy resin composition, the composition including a base resin; a filler; a colorant; and a thermochromic pigment, wherein a color of the thermochromic pigment is irreversibly changed when a temperature thereof exceeds a predetermined temperature.

Packaged semiconductor devices including high-thermal conductivity molding compounds and methods of forming the same are disclosed. In an embodiment, a semiconductor device includes a first redistribution structure; a first die over and electrically coupled to the first redistribution structure; a first through via over and electrically coupled to the first redistribution structure; an insulation layer extending along the first redistribution structure, the first die, and the first through via; and an encapsulant over the insulation layer, the encapsulant surrounding portions of the first through via and the first die, the encapsulant including conductive fillers at a concentration ranging from 70% to about 95% by volume.