Techniques are disclosed for forming a frame on the backplane comprising structures at least partially circumscribing or enclosing metal contacts on the backplane. In some embodiments, the frame may comprise a photoresist. The dimensions and structural integrity of the frame can help prevent misalignment and/or damage of physical obtrusions of light-emitting structures during a bonding process of the light-emitting structures to the backplane.

Implementations described herein relate to various semiconductor device assemblies. In some implementations, an adhesive assembly configured for semiconductor die attachment includes one or more adhesive films capable of semiconductor die attachment, and one or more conductive elements embedded in the one or more adhesive films.

A display device includes an array substrate, two light-emitting element substrates, a plurality of first connection elements, and a plurality of second connection elements. The array substrate includes two pixel circuits. Each of the pixel circuits includes three sub-pixel circuits, three first conductive pads, and a second conductive pad. Each of the light-emitting element substrates includes three light-emitting elements, three first connection pads, and a second connection pad. The first connection elements respectively and electrically connect corresponding one of the first conductive pads to corresponding one of the first connection pads. The second connection elements respectively and electrically connect corresponding one of the second conductive pads to corresponding one of the second connection pads.

A display device includes an array substrate, two light-emitting element substrates, a plurality of first connection elements, and a plurality of second connection elements. The array substrate includes two pixel circuits. Each of the pixel circuits includes three sub-pixel circuits, three first conductive pads, and a second conductive pad. Each of the light-emitting element substrates includes three light-emitting elements, three first connection pads, and a second connection pad. The first connection elements respectively and electrically connect corresponding one of the first conductive pads to corresponding one of the first connection pads. The second connection elements respectively and electrically connect corresponding one of the second conductive pads to corresponding one of the second connection pads.

The present disclosure provides a method for preparing a semiconductor package having a standard size from a die having a size smaller than the standard size. The method includes: providing a wafer; forming a die on the wafer, wherein the die has a size smaller than one-half of a standard size 0201; dicing the die from the wafer; encapsulating the die to form an encapsulated die; and singulating the encapsulated die to form a semiconductor package having a size equal to or larger than the standard size 0201.

The present disclosure provides a method for preparing a semiconductor package having a standard size from a die having a size smaller than the standard size. The method includes: providing a wafer; forming a die on the wafer, wherein the die has a size smaller than one-half of a standard size 0201; dicing the die from the wafer; encapsulating the die to form an encapsulated die; and singulating the encapsulated die to form a semiconductor package having a size equal to or larger than the standard size 0201.

A technique relates to a semiconductor device. First nanowires are formed on a first substrate, the first nanowires being electrically coupled to one or more first electrical sites on the first substrate. Second nanowires are formed on a second substrate, the second nanowires being electrically coupled to one or more second electrical sites on the second substrate. The first nanowires and the second nanowires are electrically coupled such that the one or more first electrical sites are electrically coupled to the one or more second electrical sites.

A technique relates to a semiconductor device. First nanowires are formed on a first substrate, the first nanowires being electrically coupled to one or more first electrical sites on the first substrate. Second nanowires are formed on a second substrate, the second nanowires being electrically coupled to one or more second electrical sites on the second substrate. The first nanowires and the second nanowires are electrically coupled such that the one or more first electrical sites are electrically coupled to the one or more second electrical sites.

Proximity coupling interconnect packaging systems and methods. A semiconductor package assembly comprises a substrate, a first semiconductor die disposed adjacent the substrate, and a second semiconductor die stacked over the first semiconductor die. There is at least one proximity coupling interconnect between the first semiconductor die and the second semiconductor die, the proximity coupling interconnect comprising a first conductive pad on the first coupling face on the first semiconductor die and a second conductive pad on a second coupling face of the second semiconductor die, the second conductive pad spaced apart from the first conductive pad by a gap distance and aligned with the first conductive pad. An electrical connector is positioned laterally apart from the proximity coupling interconnect and extends between the second semiconductor die and the substrate, the position of the electrical connector defining the alignment of the first conductive pad and the second conductive pad.

Proximity coupling interconnect packaging systems and methods. A semiconductor package assembly comprises a substrate, a first semiconductor die disposed adjacent the substrate, and a second semiconductor die stacked over the first semiconductor die. There is at least one proximity coupling interconnect between the first semiconductor die and the second semiconductor die, the proximity coupling interconnect comprising a first conductive pad on the first coupling face on the first semiconductor die and a second conductive pad on a second coupling face of the second semiconductor die, the second conductive pad spaced apart from the first conductive pad by a gap distance and aligned with the first conductive pad. An electrical connector is positioned laterally apart from the proximity coupling interconnect and extends between the second semiconductor die and the substrate, the position of the electrical connector defining the alignment of the first conductive pad and the second conductive pad.