A method of applying a die attach material includes forming a wafer stencil by selectively removing on the back side of a wafer including a plurality of semiconductor die having an active top side a predetermined depth to form a recess having an inner circumference while not removing an outer most circumference of the wafer. The recess is filled with a B-stage adhesive material. The wafer is singulated to form a plurality singulated semiconductor die. The singulated semiconductor die is die attached back side down to a package substrate, and then the B-stage adhesive material is cured. The B-stage adhesive material across its full area generally has a minimum thickness of at least 20 m and a maximum thickness range of 6 m.

A method of applying a die attach material includes forming a wafer stencil by selectively removing on the back side of a wafer including a plurality of semiconductor die having an active top side a predetermined depth to form a recess having an inner circumference while not removing an outer most circumference of the wafer. The recess is filled with a B-stage adhesive material. The wafer is singulated to form a plurality singulated semiconductor die. The singulated semiconductor die is die attached back side down to a package substrate, and then the B-stage adhesive material is cured. The B-stage adhesive material across its full area generally has a minimum thickness of at least 20 m and a maximum thickness range of 6 m.

A package structure and a method for fabricating the same are provided. The package structure includes a substrate, a semiconductor package and an adhesive body. The substrate has a first board surface and a second board surface. The semiconductor package has an upper surface and a lower surface, is disposed on the first board surface and electrically connected to the substrate through pins, and has a first vertical projection on the first board surface. An adhesive groove is disposed on the first board surface and is located in at least one portion of the first vertical projection and a periphery of the first vertical projection. The adhesive body is disposed in the adhesive groove, and protrudes to contact the lower surface, so as to fix the semiconductor package. The adhesive groove does not overlap with the pins, and the adhesive body does not contact the pins.

A display device includes a driving member which provides an electrical signal and includes a connection terminal which transmits the electrical signal, a pad electrode which receives the electrical signal from the driving member and is electrically connected to the connection terminal of the driving member, an organic layer on the pad electrode, the organic layer including a side surface defining an opening of the organic layer which exposes the pad electrode to outside the organic layer and within the opening, a protrusion protruding from the side surface, and a connection conductive layer which electrically connects the pad electrode to the connection terminal, within the opening of the organic layer, where the connection conductive layer covers each of the pad electrode which is exposed by the opening of the organic layer, the side surface of the organic layer, and the protrusion of the organic layer.

An electronic device includes: a support member that has a metallic placement surface joined to the conductive bonding layer, and a metallic sealing surface provided on an outer side of the placement surface in an in-plane direction of the placement surface to adjoin the placement surface and to surround the placement surface; and a resin member, which is a synthetic resin molded article, joined to the sealing surface and covering the electronic component. The sealing surface includes a rough surface having a plurality of laser irradiation marks having a substantially circular shape. The rough surface includes a first region and a second region. The second region has a higher density of the laser irradiation marks in the in-plane direction than the first region.

A display device includes: a substrate including: a display area; and a pad area including: an input pad area; an output pad area spaced apart from the input pad area in a first direction, and an intermediate area between the input pad area and the output pad area; and inorganic insulating layers defining a cutout portion in the intermediate area.

A method of manufacturing a pre-mold substrate includes preparing an electrically conductive substrate, forming a groove on one surface of the substrate, arranging a resin to cover one surface of the substrate and the groove, removing a portion of the resin so that at least a portion of one surface of the substrate protrudes higher than a surface of the resin covering the groove, and forming a circuit pattern on another surface of the substrate.

An electronic device includes: a support member that has a metallic placement surface joined to the conductive bonding layer, and a metallic sealing surface provided on an outer side of the placement surface in an in-plane direction of the placement surface to adjoin the placement surface and to surround the placement surface; and a resin member, which is a synthetic resin molded article, joined to the sealing surface and covering the electronic component. The sealing surface includes a rough surface having a plurality of laser irradiation marks having a substantially circular shape. The rough surface includes a first region and a second region. The second region has a higher density of the laser irradiation marks in the in-plane direction than the first region.

Implementations of semiconductor packages may include: a semiconductor wafer, a glass lid fixedly coupled to a first side of the semiconductor die by an adhesive, a redistribution layer coupled to a second side of the semiconductor die, and a plurality of ball mounts coupled to the redistribution layer on a side of the redistribution layer coupled to the semiconductor die. The adhesive may be located in a trench around a perimeter of the semiconductor die and located in a corresponding trench around a perimeter of the glass lid.

Embodiments disclosed herein include package substrates. In an embodiment, the package substrate comprises a core and buildup layers over the core. In an embodiment, a pad is provided on the buildup layers. In an embodiment, a liquid metal well is over the pad.