To provide an interlayer filler composition capable of forming a cured adhesive layer sufficiently cured and excellent in adhesion without letting voids be formed in the cured adhesive layer while minimizing leak out of a filler. An interlayer filler composition for a semiconductor device, comprises an epoxy resin (A), a curing agent (B), a filler (C) and a flux (D), has a minimum value of its viscosity at from 100 to 150° C. and satisfies the following formulae (1) and (2) simultaneously:

10<η50/η120<500   (1)

1,000<η150/η120   (2)

(wherein η50, η120 and η150 represent the viscosities at 50° C., 120° C. and 150° C., respectively, of the interlayer filler composition).

Embodiments are directed to a method of forming a semiconductor chip package and resulting structures having an annular PSPI region formed under a BLM pad. An annular region is formed under a barrier layer metallurgy (BLM) pad. The annular region includes a photosensitive polyimide (PSPI). A conductive pedestal is formed on a surface of the BLM pad and a solder bump is formed on a surface of the conductive pedestal. The annular PSPI region reduces wafer warpage and ULK peeling stress.

Embodiments are directed to a method of forming a semiconductor chip package and resulting structures having an annular PSPI region formed under a BLM pad. An annular region is formed under a barrier layer metallurgy (BLM) pad. The annular region includes a photosensitive polyimide (PSPI). A conductive pedestal is formed on a surface of the BLM pad and a solder bump is formed on a surface of the conductive pedestal. The annular PSPI region reduces wafer warpage and ULK peeling stress.

The present application discloses a semiconductor device with a recessed pad layer and a method for fabricating the semiconductor device. The semiconductor device includes a first die, a second die positioned on the first die, a pad layer positioned in the first die, a filler layer including an upper portion and a recessed portion, and a barrier layer positioned between the second die and the upper portion of the filler layer, between the first die and the upper portion of the filler layer, and between the pad layer and the recessed portion of the filler layer. The upper portion of the filler layer is positioned along the second die and the first die, and the recessed portion of the filler layer is extending from the upper portion and positioned in the pad layer.

The present application discloses a semiconductor device with a recessed pad layer and a method for fabricating the semiconductor device. The semiconductor device includes a first die, a second die positioned on the first die, a pad layer positioned in the first die, a filler layer including an upper portion and a recessed portion, and a barrier layer positioned between the second die and the upper portion of the filler layer, between the first die and the upper portion of the filler layer, and between the pad layer and the recessed portion of the filler layer. The upper portion of the filler layer is positioned along the second die and the first die, and the recessed portion of the filler layer is extending from the upper portion and positioned in the pad layer.

The present application discloses a semiconductor device with a heat dissipation unit and a method for fabricating the semiconductor device. The semiconductor device includes a die stack, an intervening bonding layer positioned on the die stack, and a carrier structure including a carrier substrate positioned on the intervening bonding layer, and through semiconductor vias positioned in the carrier substrate and on the intervening bonding layer for thermally conducting heat.

The present application discloses a semiconductor device with a heat dissipation unit and a method for fabricating the semiconductor device. The semiconductor device includes a die stack, an intervening bonding layer positioned on the die stack, and a carrier structure including a carrier substrate positioned on the intervening bonding layer, and through semiconductor vias positioned in the carrier substrate and on the intervening bonding layer for thermally conducting heat.

The present application discloses a semiconductor device with a recessed pad layer and a method for fabricating the semiconductor device. The semiconductor device includes a first die, a second die positioned on the first die, a pad layer positioned in the first die, a filler layer including an upper portion and a recessed portion, and a barrier layer positioned between the second die and the upper portion of the filler layer, between the first die and the upper portion of the filler layer, and between the pad layer and the recessed portion of the filler layer. The upper portion of the filler layer is positioned along the second die and the first die, and the recessed portion of the filler layer is extending from the upper portion and positioned in the pad layer.

The present application discloses a semiconductor device with a recessed pad layer and a method for fabricating the semiconductor device. The semiconductor device includes a first die, a second die positioned on the first die, a pad layer positioned in the first die, a filler layer including an upper portion and a recessed portion, and a barrier layer positioned between the second die and the upper portion of the filler layer, between the first die and the upper portion of the filler layer, and between the pad layer and the recessed portion of the filler layer. The upper portion of the filler layer is positioned along the second die and the first die, and the recessed portion of the filler layer is extending from the upper portion and positioned in the pad layer.

A bonding method can include activating a first bonding layer of a first element for direct bonding to a second bonding layer of a second element. The bonding method can include, after the activating, providing a protective layer over the activated first bonding layer of the first element.