The present application discloses a method for fabricating a semiconductor device with slanted conductive layers. The method for fabricating a semiconductor device includes providing a substrate, forming a first insulating layer above the substrate, forming first slanted recesses along the first insulating layer, and forming first slanted conductive layers in the first slanted recesses and a top conductive layer covering the first slanted conductive layers.

In described examples, a first device on a first surface of a substrate is coupled to a structure arranged on a second surface of the substrate. In at least one example, a first conductor arranged on the first surface is coupled to circuitry of the first device. An elevated portion of the first conductor is supported by disposing an encapsulate and curing the encapsulate. The first conductor is severed by cutting the encapsulate and the first conductor. A second conductor is coupled to the first conductor. The second conductor is coupled to the structure arranged on the second surface of the substrate.

A semiconductor package includes a first semiconductor chip including a first chip body portion and a first chip rear bump disposed in a region recessed into the first chip body portion, and a second semiconductor chip stacked on the first semiconductor chip and including a second chip body portion and a second chip front bump protruding from the second chip body portion. The first chip rear bump includes a lower metal layer and a solder layer disposed on the lower metal layer. The second chip front bump is bonded to the solder layer. The second chip front bump is disposed to cover at least the solder layer on a bonding surface of the second chip front bump and the solder layer.

A first semiconductor die includes first semiconductor devices located over a first substrate, first interconnect-level dielectric material layers embedding first metal interconnect structures and located on the first semiconductor devices, and a first pad-level dielectric layer located on the first interconnect-level dielectric material layers and embedding first bonding pads. Each of the first bonding pads includes a first proximal horizontal surface and at least one first distal horizontal surface that is more distal from the first substrate than the first proximal horizontal surface is from the first substrate and has a lesser total area than a total area of the first proximal horizontal surface. A second semiconductor die including second bonding pads that are embedded in a second pad-level dielectric layer can be bonded to a respective distal surface of the first bonding pads.

A method embodiment includes forming a sacrificial film layer over a top surface of a die, the die having a contact pad at the top surface. The die is attached to a carrier, and a molding compound is formed over the die and the sacrificial film layer. The molding compound extends along sidewalls of the die. The sacrificial film layer is exposed. The contact pad is exposed by removing at least a portion of the sacrificial film layer. A first polymer layer is formed over the die, and a redistribution layer (RDL) is formed over the die and electrically connects to the contact pad.

A method embodiment includes forming a sacrificial film layer over a top surface of a die, the die having a contact pad at the top surface. The die is attached to a carrier, and a molding compound is formed over the die and the sacrificial film layer. The molding compound extends along sidewalls of the die. The sacrificial film layer is exposed. The contact pad is exposed by removing at least a portion of the sacrificial film layer. A first polymer layer is formed over the die, and a redistribution layer (RDL) is formed over the die and electrically connects to the contact pad.

A semiconductor device includes a conductive component on a substrate, a passivation layer on the substrate and including an opening that exposes at least a portion of the conductive component, and a pad structure in the opening and located on the passivation layer, the pad structure being electrically connected to the conductive component. The pad structure includes a lower conductive layer conformally extending on an inner sidewall of the opening, the lower conductive layer including a conductive barrier layer, a first seed layer, an etch stop layer, and a second seed layer that are sequentially stacked, a first pad layer on the lower conductive layer and at least partially filling the opening, and a second pad layer on the first pad layer and being in contact with a peripheral portion of the lower conductive layer located on the top surface of the passivation layer.

A method for forming a bond pad structure includes forming an interconnect structure on a semiconductor device, forming a passivation layer on the interconnect structure, forming at least one opening through the passivation layer, forming an oxidation layer at least in the opening, and forming a pad metal layer on the oxidation layer. A portion of the interconnect structure is exposed by the at least one opening.

A method for forming a bond pad structure includes forming an interconnect structure on a semiconductor device, forming a passivation layer on the interconnect structure, forming at least one opening through the passivation layer, forming an oxidation layer at least in the opening, and forming a pad metal layer on the oxidation layer. A portion of the interconnect structure is exposed by the at least one opening.

A semiconductor die includes at least one first semiconductor device located on a first substrate, a first pad-level dielectric layer which is a diffusion barrier overlying the at least one first semiconductor device, and first bonding structures including a respective first metallic bonding pad embedded in the first pad-level dielectric layer. Each of the first bonding structures includes a metallic fill material portion having a horizontal distal surface that is located within a horizontal plane including a horizontal distal surface of the first pad-level dielectric layer, and a metallic liner laterally surrounding the metallic fill material portion and vertically spaced from the horizontal plane by a vertical recess distance.