A packaged integrated circuit is provided. The packaged integrated circuit includes a die, a package including a base, a lid, and a plurality of package leads, and die attach adhesive for securing the die to the package base. the die includes a plurality of die pads. The die is secured to the base with the die attach adhesive. After the die is secured to the base, at least one of the plurality of die pads is electrically connected to at least one of the plurality of package leads with a printed bond connection. After printing the bond connection, the lid is sealed to the base.

Disclosed are a packaging cover plate, an organic light-emitting diode display and a manufacturing method therefor. The packaging cover plate comprises: a cover plate body, the cover plate body being provided with open slots; cover plugs for covering openings at two ends of the open slots; and water absorption layers for at least covering mouths of the open slots. By means of the arranged open slots, the packaging cover plate can conveniently introduce a dry gas. In addition, the water absorption layers absorb water vapour, the introduced dry gas dries the water absorption layers, and the water vapour and oxygen in the water absorption layers can be taken away by means of the circular flow of the dry gas, so that damage to a device by water vapour and oxygen can be reduced, and the packaging effect is better.

Disclosed are a packaging cover plate, an organic light-emitting diode display and a manufacturing method therefor. The packaging cover plate comprises: a cover plate body, the cover plate body being provided with open slots; cover plugs for covering openings at two ends of the open slots; and water absorption layers for at least covering mouths of the open slots. By means of the arranged open slots, the packaging cover plate can conveniently introduce a dry gas. In addition, the water absorption layers absorb water vapour, the introduced dry gas dries the water absorption layers, and the water vapour and oxygen in the water absorption layers can be taken away by means of the circular flow of the dry gas, so that damage to a device by water vapour and oxygen can be reduced, and the packaging effect is better.

The present disclosure relates to semiconductor structures and, more particularly, to corrosion resistant chip sidewall connections with crackstop structures with a hermetic seal, and methods of manufacture. The structure includes: a guard ring structure surrounding an active region of an integrated circuit chip; an opening formed in the guard ring structure; and a hermetic seal encapsulating the opening and a portion of the guard ring structure, the hermetic seal being structured to prevent moisture ingress to the active region of the integrated circuit chip through the opening.

The present disclosure relates to semiconductor structures and, more particularly, to corrosion resistant chip sidewall connections with crackstop structures with a hermetic seal, and methods of manufacture. The structure includes: a guard ring structure surrounding an active region of an integrated circuit chip; an opening formed in the guard ring structure; and a hermetic seal encapsulating the opening and a portion of the guard ring structure, the hermetic seal being structured to prevent moisture ingress to the active region of the integrated circuit chip through the opening.

An electrical component and method for manufacturing the electrical component with a substrate a conductor stack having multiple layers and including at least one electrically conductive path. The conductor stack mounted to the substrate with a dielectric passivation stack encasing at least a portion of the conductor stack.

The present application relates to an encapsulation film and an organic electronic device including the encapsulation film, and provides an encapsulation film and an organic electronic device which effectively prevents the penetration of moisture or oxygen from the outside into the organic electronic device and also achieves the light diffusion and extraction effects.

An integrated circuit chip having an anti-moisture-absorption film at the edge thereof and a method of forming the anti-moisture-absorption film are provided. In the integrated circuit chip which has predetermined devices inside and whose uppermost layer is covered with a passivation film, a trench is formed by etching interlayer dielectric films to a predetermined depth along the perimeter of the integrated circuit chip to be adjacent to the edge of the integrated circuit chip and an anti-moisture-absorption film is formed to fill the trench or is formed on the sidewall of the trench to a predetermined thickness, in order to prevent moisture from seeping into the edge of the integrated circuit chip. Moisture is effectively prevented from seeping into the edge of the chip by forming the anti-moisture-absorption film at the edge of the chip using the conventional processes of manufacturing the integrated circuit chip without an additional process.

An integrated circuit chip having an anti-moisture-absorption film at the edge thereof and a method of forming the anti-moisture-absorption film are provided. In the integrated circuit chip which has predetermined devices inside and whose uppermost layer is covered with a passivation film, a trench is formed by etching interlayer dielectric films to a predetermined depth along the perimeter of the integrated circuit chip to be adjacent to the edge of the integrated circuit chip and an anti-moisture-absorption film is formed to fill the trench or is formed on the sidewall of the trench to a predetermined thickness, in order to prevent moisture from seeping into the edge of the integrated circuit chip. Moisture is effectively prevented from seeping into the edge of the chip by forming the anti-moisture-absorption film at the edge of the chip using the conventional processes of manufacturing the integrated circuit chip without an additional process.

A shaped sorbent is described comprising a plurality of layers of photopolymerised resin containing particles of a sorbent material. The shaped sorbent may be used as a getter for use in gettering one or more contaminants in a sealed enclosure.