The present application provides a semiconductor device and a method for preparing the semiconductor device. The semiconductor device includes a bonding pad disposed over a semiconductor substrate, and a first spacer disposed over a sidewall of the bonding pad. The semiconductor device also includes a first passivation layer covering the bonding pad and the first spacer, and a conductive bump disposed over the first passivation layer. The conductive bump is electrically connected to a source/drain region in the semiconductor substrate through the bonding pad.

The present application provides a semiconductor device and a method for preparing the semiconductor device. The semiconductor device includes a bonding pad disposed over a semiconductor substrate, and a first spacer disposed over a sidewall of the bonding pad. The semiconductor device also includes a first passivation layer covering the bonding pad and the first spacer, and a conductive bump disposed over the first passivation layer. The conductive bump is electrically connected to a source/drain region in the semiconductor substrate through the bonding pad.

A structure includes a controlled polyimide profile. A method for forming such a structure includes depositing, on a substrate, a photoresist containing polyimide and performing a first anneal at a first temperature. The method further includes exposing the photoresist to a radiation source through a photomask having a pattern associated with a shape of a polyimide opening. The method further includes performing a second anneal at a second temperature and removing a portion of the photoresist to form the polyimide opening. The method further includes performing a third anneal at a third temperature and cleaning the polyimide opening by ashing.

The present disclosure provides a semiconductor structure, including a substrate, a conductive pad, a passivation layer, a recess, a bump pad, and a conductive bump. The conductive pad is disposed over the substrate. The passivation layer is disposed over the substrate and partially covers the conductive pad. The recess extends through the passivation layer and extends at least partially into the conductive pad. The bump pad is disposed over the passivation layer and within the recess; and the conductive bump is disposed over the bump pad. A method of manufacturing the semiconductor structure is also provided.

The present disclosure provides a semiconductor structure, including a substrate, a conductive pad, a passivation layer, a recess, a bump pad, and a conductive bump. The conductive pad is disposed over the substrate. The passivation layer is disposed over the substrate and partially covers the conductive pad. The recess extends through the passivation layer and extends at least partially into the conductive pad. The bump pad is disposed over the passivation layer and within the recess; and the conductive bump is disposed over the bump pad. A method of manufacturing the semiconductor structure is also provided.

A semiconductor package including a first semiconductor die, a second semiconductor die, a first insulating encapsulation, a dielectric layer structure, a conductor structure and a second insulating encapsulation is provided. The first semiconductor die includes a first semiconductor substrate and a through silicon via (TSV) extending from a first side to a second side of the semiconductor substrate. The second semiconductor die is disposed on the first side of the semiconductor substrate. The first insulating encapsulation on the second semiconductor die encapsulates the first semiconductor die. A terminal of the TSV is coplanar with a surface of the first insulating encapsulation. The dielectric layer structure covers the first semiconductor die and the first insulating encapsulation. The conductor structure extends through the dielectric layer structure and contacts with the through silicon via. The second insulating encapsulation contacts with the second semiconductor die, the first insulting encapsulation, and the dielectric layer structure.

An embodiment bump on trace (BOT) structure includes a contact element supported by an integrated circuit, an under bump metallurgy (UBM) feature electrically coupled to the contact element, a metal ladder bump mounted on the under bump metallurgy feature, the metal ladder bump having a first tapering profile, and a substrate trace mounted on a substrate, the substrate trace having a second tapering profile and coupled to the metal ladder bump through direct metal-to-metal bonding. An embodiment chip-to-chip structure may be fabricated in a similar fashion.

An embodiment bump on trace (BOT) structure includes a contact element supported by an integrated circuit, an under bump metallurgy (UBM) feature electrically coupled to the contact element, a metal ladder bump mounted on the under bump metallurgy feature, the metal ladder bump having a first tapering profile, and a substrate trace mounted on a substrate, the substrate trace having a second tapering profile and coupled to the metal ladder bump through direct metal-to-metal bonding. An embodiment chip-to-chip structure may be fabricated in a similar fashion.

A semiconductor device includes: a semiconductor element that includes an element main body having an element main surface facing one side in a thickness direction, and a first electrode arranged on the element main surface; a first insulating layer that is arranged over a peripheral edge portion of the first electrode and the element main surface and includes a first annular portion formed in an annular shape when viewed in the thickness direction; and a second insulating layer that is laminated on the first insulating layer, is made of a resin material, and includes a second annular portion overlapping with the first annular portion when viewed in the thickness direction.

An interposer according to an embodiment of the present invention includes a base layer having opposite first and second surfaces, a wiring structure on the first surface of the base layer, an interposer protective layer disposed on the second surface of the base layer and having a pad recess with a lower surface of the interposer protective layer positioned at a first vertical level and a bottom surface of the pad recess positioned at a second vertical level that is higher than the first vertical level, an interposer pad of which a portion fills the pad recess of the interposer protective layer and the remaining portion protrudes from the interposer protective layer, and an interposer through electrode extending through the base layer and the interposer protective layer to the interposer pad, the interposer through electrode electrically connecting the wiring structure to the interposer pad.