Embodiments relate to the design of a device capable of maintaining the alignment an interconnect by resisting lateral forces acting on surfaces of the interconnect. The device comprises a first body comprising a first surface with a nanoporous metal structure protruding from the first surface. The device further comprises a second body comprising a second surface with a locking structure to resist a lateral force between the first body and the second body during or after assembly of the first body and the second body.

Embodiments relate to the design of a device capable of maintaining the alignment an interconnect by resisting lateral forces acting on surfaces of the interconnect. The device comprises a first body comprising a first surface with a nanoporous metal structure protruding from the first surface. The device further comprises a second body comprising a second surface with a locking structure to resist a lateral force between the first body and the second body during or after assembly of the first body and the second body.

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.

In some examples, a system comprises a set of nanoparticles and a set of nanowires extending from the set of nanoparticles.

In some examples, a system comprises a set of nanoparticles and a set of nanowires extending from the set of nanoparticles.

A package structure and method for forming the same are provided. The package structure includes a first interconnect structure formed over a first substrate, and the first interconnect structure includes a first metal layer. The package structure further includes a second interconnect structure formed over a second substrate. The package structure includes a bonding structure between the first interconnect structure and the second interconnect structure. The bonding structure includes a first intermetallic compound (IMC) and a second intermetallic compound (IMC), a portion of the first IMC protrudes from the sidewall surfaces of the second IMC, and there could be a grain boundary between the first IMC and the second IMC.

Embodiments relate to the design of a device capable of maintaining the alignment an interconnect by resisting lateral forces acting on surfaces of the interconnect. The device comprises a first body comprising a first surface with a nanoporous metal structure protruding from the first surface. The device further comprises a second body comprising a second surface with a locking structure to resist a lateral force between the first body and the second body during or after assembly of the first body and the second body.

Embodiments relate to the design of a device capable of maintaining the alignment an interconnect by resisting lateral forces acting on surfaces of the interconnect. The device comprises a first body comprising a first surface with a nanoporous metal structure protruding from the first surface. The device further comprises a second body comprising a second surface with a locking structure to resist a lateral force between the first body and the second body during or after assembly of the first body and the second body.

A semiconductor device according to an embodiment includes a substrate. An insulating film is provided above the substrate. Electrode pads are provided on the insulating film. Metallic bumps are respectively provided on surfaces of the electrode pads. A sidewall film comprises a metallic oxide or a metallic hydroxide provided on side surfaces of the metallic bumps. A barrier metal layer comprises first portions each provided between one of the metallic bumps and a corresponding one of the electrode pads and comprising a metal, and second portions provided at least on the electrode pads at a periphery of the metallic bumps and comprising a metallic oxide or a metallic hydroxide.

A semiconductor device according to an embodiment includes a substrate. An insulating film is provided above the substrate. Electrode pads are provided on the insulating film. Metallic bumps are respectively provided on surfaces of the electrode pads. A sidewall film comprises a metallic oxide or a metallic hydroxide provided on side surfaces of the metallic bumps. A barrier metal layer comprises first portions each provided between one of the metallic bumps and a corresponding one of the electrode pads and comprising a metal, and second portions provided at least on the electrode pads at a periphery of the metallic bumps and comprising a metallic oxide or a metallic hydroxide.