A semiconductor device according to an embodiment includes a first substrate including a first insulating layer, a first conductive layer provided in the first insulating layer, a first metal layer provided in the first insulating layer, and a second metal layer provided between the first metal layer and the first conductive layer, a linear expansion coefficient of the second metal layer being higher than that of the first metal layer; and a second substrate including a second insulating layer, and a third metal layer provided in the second insulating layer, in contact with the first metal layer. The second substrate contacts with the first substrate.

A semiconductor device according to an embodiment includes a first substrate including a first insulating layer, a first conductive layer provided in the first insulating layer, a first metal layer provided in the first insulating layer, and a second metal layer provided between the first metal layer and the first conductive layer, a linear expansion coefficient of the second metal layer being higher than that of the first metal layer; and a second substrate including a second insulating layer, and a third metal layer provided in the second insulating layer, in contact with the first metal layer. The second substrate contacts with the first substrate.

Embodiments of bonded semiconductor structures and fabrication methods thereof are disclosed. In an example, a bonded structure includes a first bonding layer including a first bonding contact and a first bonding alignment mark, a second bonding layer including a second bonding contact and a second bonding alignment mark, and a bonding interface between the first bonding layer and the second bonding layer. The first bonding alignment mark is aligned with the second bonding alignment mark at the bonding interface, such that the first bonding contact is aligned with the second bonding contact at the bonding interface. The first bonding alignment mark includes a plurality of first repetitive patterns. The second bonding alignment mark includes a plurality of second repetitive patterns different from the plurality of first repetitive patterns.

Embodiments of bonded semiconductor structures and fabrication methods thereof are disclosed. In an example, a bonded structure includes a first bonding layer including a first bonding contact and a first bonding alignment mark, a second bonding layer including a second bonding contact and a second bonding alignment mark, and a bonding interface between the first bonding layer and the second bonding layer. The first bonding alignment mark is aligned with the second bonding alignment mark at the bonding interface, such that the first bonding contact is aligned with the second bonding contact at the bonding interface. The first bonding alignment mark includes a plurality of first repetitive patterns. The second bonding alignment mark includes a plurality of second repetitive patterns different from the plurality of first repetitive patterns.

A semiconductor chip includes a chip body including a signal input/output circuit, a chip pad structure disposed on a surface of the chip body, the chip pad structure including first and second chip pads, the two chip pads having different surface areas, and a chip pad selection circuit disposed in the chip body and electrically connected to the signal input/output circuit and the chip pad structure. The chip pad selection circuit is configured to selectively and electrically connect one of the first and second chip pads to the signal input/output circuit.

A semiconductor chip includes a chip body including a signal input/output circuit, a chip pad structure disposed on a surface of the chip body, the chip pad structure including first and second chip pads, the two chip pads having different surface areas, and a chip pad selection circuit disposed in the chip body and electrically connected to the signal input/output circuit and the chip pad structure. The chip pad selection circuit is configured to selectively and electrically connect one of the first and second chip pads to the signal input/output circuit.

A semiconductor device includes an upper-level layer having a cell array region, a cell contact region and a dummy region on a substrate. The upper-level layer includes a semiconductor layer, a cell array structure including first and second stack structures sequentially stacked on the semiconductor layer of the cell array region, the first and second stack structures comprising stacked electrodes, a first staircase structure on the semiconductor layer of the cell contact region, the electrodes extending from the cell array structure into the first staircase structure such that the cell array structure is connected to the first staircase structure, a vertical channel structure penetrating the cell array structure, a dummy structure in the dummy region, the dummy structure at the same level as the second stack structure, the dummy structure including stacked first layers, and cell contact plugs in the cell contact region and connected to the first staircase structure.

A semiconductor device includes an upper-level layer having a cell array region, a cell contact region and a dummy region on a substrate. The upper-level layer includes a semiconductor layer, a cell array structure including first and second stack structures sequentially stacked on the semiconductor layer of the cell array region, the first and second stack structures comprising stacked electrodes, a first staircase structure on the semiconductor layer of the cell contact region, the electrodes extending from the cell array structure into the first staircase structure such that the cell array structure is connected to the first staircase structure, a vertical channel structure penetrating the cell array structure, a dummy structure in the dummy region, the dummy structure at the same level as the second stack structure, the dummy structure including stacked first layers, and cell contact plugs in the cell contact region and connected to the first staircase structure.

A semiconductor structure includes a first semiconductor package, a second semiconductor package, a heat spreader and an underfill layer. The first semiconductor package includes a plurality of lower semiconductor chips and a first dielectric encapsulation layer disposed around the plurality of the lower semiconductor chips. The second semiconductor package is disposed over and corresponds to one of the plurality of lower semiconductor chips, wherein the second semiconductor package includes a plurality of upper semiconductor chips and a second dielectric encapsulation layer disposed around the plurality of upper semiconductor chips. The heat spreader is disposed over and corresponds to another of the plurality of lower semiconductor chips. The underfill layer is disposed over the first semiconductor package and around the second semiconductor package and the heat spreader.

A semiconductor structure includes a first semiconductor package, a second semiconductor package, a heat spreader and an underfill layer. The first semiconductor package includes a plurality of lower semiconductor chips and a first dielectric encapsulation layer disposed around the plurality of the lower semiconductor chips. The second semiconductor package is disposed over and corresponds to one of the plurality of lower semiconductor chips, wherein the second semiconductor package includes a plurality of upper semiconductor chips and a second dielectric encapsulation layer disposed around the plurality of upper semiconductor chips. The heat spreader is disposed over and corresponds to another of the plurality of lower semiconductor chips. The underfill layer is disposed over the first semiconductor package and around the second semiconductor package and the heat spreader.