A chip package and manufacturing method is disclosed. In one example, the method includes forming a carrier wafer with a plurality of trenches, each trench being at least partially covered with an electrically conductive sidewall coating. A semiconductor wafer is bonded on a front side of the carrier wafer. An electrically conductive connection structure is formed, including at least partially bridging a gap between the electrically conductive sidewall coating and an integrated circuit element of a respective one of the electronic chips. Material on a backside of the carrier wafer is removed to singularize the bonded wafers at the trenches into a plurality of semiconductor devices.

A semiconductor device includes: a semiconductor die having a metal region; a substrate having a metal region; and a soldered joint between the metal region of the semiconductor die and the metal region of the substrate. One or more intermetallic phases are present throughout the entire soldered joint, each of the one or more intermetallic phases formed from a solder preform diffused into the metal region of the semiconductor die and the metal region of the substrate. The soldered joint has the same length-to-width aspect ratio as the semiconductor die.

A semiconductor device includes: a semiconductor die having a metal region; a substrate having a metal region; and a soldered joint between the metal region of the semiconductor die and the metal region of the substrate. One or more intermetallic phases are present throughout the entire soldered joint, each of the one or more intermetallic phases formed from a solder preform diffused into the metal region of the semiconductor die and the metal region of the substrate. The soldered joint has the same length-to-width aspect ratio as the semiconductor die.

Integrated circuit (IC) devices are provided including a substrate having a first sidewall defining a first through hole that is a portion of a through-silicon via (TSV) space, an interlayer insulating layer having a second sidewall and a protrusion, wherein the second sidewall defines a second through hole providing another portion of the TSV space and communicating with the first through hole, and the protrusion protrudes toward the inside of the TSV space and defines an undercut region in the first through hole, a TSV structure penetrating the substrate and the interlayer insulating layer and extending through the first through hole and the second through hole, and a via insulating layer surrounding the TSV structure in the first through hole and the second through hole.

Integrated circuit (IC) devices are provided including a substrate having a first sidewall defining a first through hole that is a portion of a through-silicon via (TSV) space, an interlayer insulating layer having a second sidewall and a protrusion, wherein the second sidewall defines a second through hole providing another portion of the TSV space and communicating with the first through hole, and the protrusion protrudes toward the inside of the TSV space and defines an undercut region in the first through hole, a TSV structure penetrating the substrate and the interlayer insulating layer and extending through the first through hole and the second through hole, and a via insulating layer surrounding the TSV structure in the first through hole and the second through hole.

An integrated circuit includes a substrate, an electronic component, a wiring layer, a dielectric bonding layer, a connection pattern, and a barrier layer. The wiring layer is disposed on the substrate, and is electrically connected to the electronic component. The wiring layer includes a metal trace. The dielectric bonding layer is disposed on a side that is of the wiring layer and that is away from the substrate. The connection pattern runs through the dielectric bonding layer, and is electrically connected to the metal trace. The connection pattern includes a seed layer and a conductive block that are stacked, and the seed layer is located on a side that is of the conductive block and that is close to the substrate. The barrier layer is disposed between the conductive block and the dielectric bonding layer, and surrounds a side surface of the conductive block.

Integrated circuit (IC) devices are provided including a substrate having a first sidewall defining a first through hole that is a portion of a through-silicon via (TSV) space, an interlayer insulating layer having a second sidewall and a protrusion, wherein the second sidewall defines a second through hole providing another portion of the TSV space and communicating with the first through hole, and the protrusion protrudes toward the inside of the TSV space and defines an undercut region in the first through hole, a TSV structure penetrating the substrate and the interlayer insulating layer and extending through the first through hole and the second through hole, and a via insulating layer surrounding the TSV structure in the first through hole and the second through hole.

Integrated circuit (IC) devices are provided including a substrate having a first sidewall defining a first through hole that is a portion of a through-silicon via (TSV) space, an interlayer insulating layer having a second sidewall and a protrusion, wherein the second sidewall defines a second through hole providing another portion of the TSV space and communicating with the first through hole, and the protrusion protrudes toward the inside of the TSV space and defines an undercut region in the first through hole, a TSV structure penetrating the substrate and the interlayer insulating layer and extending through the first through hole and the second through hole, and a via insulating layer surrounding the TSV structure in the first through hole and the second through hole.