A semiconductor package includes a lower semiconductor chip having a first surface and a second surface, an upper semiconductor chip on the first surface, a first insulating layer between the first surface and the upper semiconductor chip, a second insulating layer between the first insulating layer and the upper semiconductor chip, and a connection structure penetrating the first insulating layer and the second insulating layer and being connected to the lower semiconductor chip and the upper semiconductor chip. The connection structure includes a first connecting portion and a second connecting portion, which are respectively disposed in the first insulating layer and the second insulating layer. A width of the second connecting portion is greater than a width of the first connecting portion. A thickness of the second connecting portion is greater than a thickness of the first connecting portion.

A semiconductor structure includes a first substrate including a first contact structure located on a first pad, and a second substrate including a second contact structure on a second pad. The first contact structure includes a first metal base layer covered by a first nano-twinned metal coating layer. The second contact structure includes a second nano-twinned metal coating layer on the second pad. The first contact structure is connected to the second contact structure, thereby forming a bonding interface between the first nano-twinned metal coating layer and the second nano-twinned metal coating layer.

A semiconductor device has a plurality of interconnected modular units to form a 3D semiconductor package. Each modular unit is implemented as a vertical component or a horizontal component. The modular units are interconnected through a vertical conduction path and lateral conduction path within the vertical component or horizontal component. The vertical component and horizontal component each have an interconnect interposer or semiconductor die. A first conductive via is formed vertically through the interconnect interposer. A second conductive via is formed laterally through the interconnect interposer. The interconnect interposer can be programmable. A plurality of protrusions and recesses are formed on the vertical component or horizontal component, and a plurality of recesses on the vertical component or horizontal component. The protrusions are inserted into the recesses to interlock the vertical component and horizontal component. The 3D semiconductor package can be formed with multiple tiers of vertical components and horizontal components.

A memory device includes a cell wafer including a memory cell array; a first logic wafer bonded to one surface of the cell wafer, and including a first logic circuit which controls the memory cell array; and a second logic wafer bonded to the other surface of the cell wafer which faces away from the one surface, and including a second logic circuit which controls the memory cell array.

A package structure is provided. The package structure includes a first interconnect structure formed over a first substrate. The package structure also includes a second interconnect structure formed below a second substrate. The package structure further includes a bonding structure between the first interconnect structure and the second interconnect structure. In addition, the bonding structure includes a first intermetallic compound (IMC) and a second intermetallic compound (IMC). The bonding structure also includes an underfill layer surrounding the bonding structure. A width of the first IMC is greater than a width of the second IMC, and the underfill layer covers a sidewall of the first IMC and a sidewall of the second IMC.

A semiconductor structure includes a first die, a second die over the first die, and a positioning member disposed within a bonding dielectric and configured to align the second die with the first die. A method for forming a semiconductor structure includes receiving a first die having a first bonding layer; forming a recess on the first bonding layer; forming a positioning member on a second die; bonding the second die over the first die using the first bonding layer; and disposing the positioning member into the recess.

A memory device includes a cell wafer including a memory cell array; a first logic wafer bonded to one surface of the cell wafer, and including a first logic circuit which controls the memory cell array; and a second logic wafer bonded to the other surface of the cell wafer which faces away from the one surface, and including a second logic circuit which controls the memory cell array.

Embodiments of semiconductor devices and fabrication methods thereof are disclosed. In an example, a method for forming a semiconductor device is provided. The method includes the following operations. In a first semiconductor structure, a first bonding layer is formed having a first dielectric layer and a plurality of protruding contact structures. In a second semiconductor structure, a second bonding layer is formed having a second dielectric layer and a plurality of recess contact structures. The plurality of protruding contact structures are bonded with the plurality of recess contact structures such that each of the plurality of protruding contacts is in contact with a respective recess contact structure.

In one embodiment, a semiconductor device includes a first chip including a substrate, a first plug on the substrate, and a first pad on the first plug, and a second chip including a second plug and a second pad under the second plug. The second chip includes an electrode layer electrically connected to the second plug, a charge storage layer provided on a side face of the electrode layer via a first insulator, and a semiconductor layer provided on a side face of the charge storage layer via a second insulator. The first and second pads are bonded with each other, and the first and second plugs are disposed so that at least a portion of the first plug and at least a portion of the second plug do not overlap with each other in a first direction that is perpendicular to a surface of the substrate.

A semiconductor package includes a lower semiconductor chip having a first surface and a second surface, an upper semiconductor chip on the first surface, a first insulating layer between the first surface and the upper semiconductor chip, a second insulating layer between the first insulating layer and the upper semiconductor chip, and a connection structure penetrating the first insulating layer and the second insulating layer and being connected to the lower semiconductor chip and the upper semiconductor chip. The connection structure includes a first connecting portion and a second connecting portion, which are respectively disposed in the first insulating layer and the second insulating layer. A width of the second connecting portion is greater than a width of the first connecting portion. A thickness of the second connecting portion is greater than a thickness of the first connecting portion.