A structure of a semiconductor package is disclosed. The structure includes a first substrate including a first interconnect structure. The structure includes a second substrate including a second interconnect structure, the second substrate bonded to the first substrate. The structure includes a connection pad interposed between the first interconnect structure and the second interconnect structure. The connection pad includes a material configured to switch between a high resistance state and a low resistance state. The material of the connection pad includes a phase change material.

Implementations of a semiconductor package may include a die; a first pad and a second pad, the first pad and the second pad each including a first layer and a second layer where the second layer may be thicker than the first layer. At least a first conductor may be directly coupled to the second layer of the first pad; at least a second conductor may be directly coupled to the second layer of the second pad; and an organic material may cover at least the first side of the die. The at least first conductor and the at least second conductor extend through openings in the organic material where a spacing between the at least first conductor and the at least second conductor may be wider than a spacing between the second layer of the first pad and the second layer of the second pad.

Implementations of a semiconductor package may include a die; a first pad and a second pad, the first pad and the second pad each including a first layer and a second layer where the second layer may be thicker than the first layer. At least a first conductor may be directly coupled to the second layer of the first pad; at least a second conductor may be directly coupled to the second layer of the second pad; and an organic material may cover at least the first side of the die. The at least first conductor and the at least second conductor extend through openings in the organic material where a spacing between the at least first conductor and the at least second conductor may be wider than a spacing between the second layer of the first pad and the second layer of the second pad.

A semiconductor device includes a semiconductor substrate having a semiconductor device on an active surface thereof. The semiconductor substrate has a quadrangular plane. An insulating layer is on the active surface of the semiconductor substrate. A passivation layer is on the insulating layer. The insulating layer includes an insulating layer central portion having a side surface extending in parallel with a side surface of the semiconductor substrate. The side surface of the insulating layer central portion is spaced apart from the side surface of the semiconductor substrate by a first size. An insulating layer corner portion is at each corner of the insulating layer central portion and protrudes from the side surface of the insulating layer central portion in a horizontal direction. The passivation layer covers the insulating layer central portion.

A semiconductor device includes a semiconductor substrate having a semiconductor device on an active surface thereof. The semiconductor substrate has a quadrangular plane. An insulating layer is on the active surface of the semiconductor substrate. A passivation layer is on the insulating layer. The insulating layer includes an insulating layer central portion having a side surface extending in parallel with a side surface of the semiconductor substrate. The side surface of the insulating layer central portion is spaced apart from the side surface of the semiconductor substrate by a first size. An insulating layer corner portion is at each corner of the insulating layer central portion and protrudes from the side surface of the insulating layer central portion in a horizontal direction. The passivation layer covers the insulating layer central portion.

Semiconductor devices, such as vertical-cavity surface-emitting lasers, and methods for manufacturing the same, are disclosed. The semiconductor devices include contact extensions and electrically conductive adhesive material, such as fusible metal alloys or electrically conductive composites. In some instances, the semiconductor devices further include structured contacts. These components enable the production of semiconductor devices having minimal distortion. For example, arrays of vertical-cavity surface-emitting lasers can be produced exhibiting little to no bowing. Semiconductor devices having minimal distortion exhibit enhanced performance in some instances.

Semiconductor devices, such as vertical-cavity surface-emitting lasers, and methods for manufacturing the same, are disclosed. The semiconductor devices include contact extensions and electrically conductive adhesive material, such as fusible metal alloys or electrically conductive composites. In some instances, the semiconductor devices further include structured contacts. These components enable the production of semiconductor devices having minimal distortion. For example, arrays of vertical-cavity surface-emitting lasers can be produced exhibiting little to no bowing. Semiconductor devices having minimal distortion exhibit enhanced performance in some instances.

Implementations of a semiconductor package may include a die; a first pad and a second pad, the first pad and the second pad each including a first layer and a second layer where the second layer may be thicker than the first layer. At least a first conductor may be directly coupled to the second layer of the first pad; at least a second conductor may be directly coupled to the second layer of the second pad; and an organic material may cover at least the first side of the die. The at least first conductor and the at least second conductor extend through openings in the organic material where a spacing between the at least first conductor and the at least second conductor may be wider than a spacing between the second layer of the first pad and the second layer of the second pad.

Implementations of a semiconductor package may include a die; a first pad and a second pad, the first pad and the second pad each including a first layer and a second layer where the second layer may be thicker than the first layer. At least a first conductor may be directly coupled to the second layer of the first pad; at least a second conductor may be directly coupled to the second layer of the second pad; and an organic material may cover at least the first side of the die. The at least first conductor and the at least second conductor extend through openings in the organic material where a spacing between the at least first conductor and the at least second conductor may be wider than a spacing between the second layer of the first pad and the second layer of the second pad.

A semiconductor package includes a semiconductor chip including a chip pad on a first surface thereof, an external pad electrically connected to the chip pad of the semiconductor chip, an external connection terminal covering the external pad, and an intermediate layer between the external pad and the external connection terminal, the intermediate layer including a third metal material that is different from a first metal material included in the external pad and a second metal material included in the external connection terminal.