A chip structure is provided. The chip structure includes a substrate. The chip structure includes a conductive line over the substrate. The chip structure includes a first passivation layer over the substrate and the conductive line. The chip structure includes a conductive pad over the first passivation layer covering the conductive line. The conductive pad is thicker and wider than the conductive line. The chip structure includes a first conductive via structure and a second conductive via structure passing through the first passivation layer and directly connected between the conductive pad and the conductive line. The chip structure includes a conductive pillar over the conductive pad.

Some embodiments relate to a bond pad structure of an integrated circuit (IC). The bond structure includes a bond pad and an intervening metal layer positioned below the bond pad. The intervening metal layer has a first face and a second face. A first via layer is in contact with the first face of intervening metal layer. The first via layer has a first via pattern. The bond structure also includes a second via layer in contact with the second face of the intervening metal layer. The second via layer has a second via pattern that is different than first via pattern. The second via pattern includes a first group of elongated vias extending in parallel with one another in a first direction and a second group of vias in between the first group of elongated vias. The second group of vias extend in a second direction orthogonal to the first direction.

A semiconductor substrate has a back side surface and a front side surface. Metallization levels are provide at the front side surface. Capacitive deep trench isolation structures extend completely through the semiconductor substrate from the front side surface to the back side surface. Each capacitive deep trench isolation structure includes a conductive region insulated from the semiconductor substrate by an insulating liner. The conductive regions at first ends of the plurality of capacitive deep trench isolation structures are electrically connected to a first metallization level by electrical contacts. A bonding pad structure is located at the back side surface of the semiconductor substrate in direct physical and electrical connection to the conductive regions at second ends of the capacitive deep trench isolation structures.

A semiconductor layer includes an opening, and in a joint surface between structures, a portion between a semiconductor layer and an opening in a direction in which the semiconductor layers are stacked together includes a plurality of conductor portions and an insulator portion located between the plurality of conductor portions in a direction orthogonal to the direction.

Some embodiments relate to a bond pad structure of an integrated circuit (IC). In one embodiment the bond structure includes a bond pad and an intervening metal layer positioned below the bond pad. The intervening metal layer has a first face and a second face. A first via layer is in contact with the first face of intervening metal layer. The first via layer has a first via pattern. The bond structure also includes a second via layer in contact with the second face of the intervening metal layer. The second via layer has a second via pattern that is different than first via pattern.

A method for fabricating a bonding pad structure includes forming a dielectric layer on a substrate; forming a first metal pattern layer in the dielectric layer. The first metal pattern layer includes a first body portion having a plurality of first openings in a central region of the first body portion and a plurality of second openings arranged along a peripheral region of the first body portion and surrounding the plurality of first openings; and a plurality of first island portions correspondingly disposed in the plurality of second openings and spaced apart from the first body portion. The method further includes forming a plurality of first interconnect structures in the dielectric layer and corresponding to the plurality of first island portions; and forming a bonding pad on the dielectric layer and directly above the first metal pattern layer.

A semiconductor substrate has a back side surface and a front side surface. Metallization levels are provide at the front side surface. Capacitive deep trench isolation structures extend completely through the semiconductor substrate from the front side surface to the back side surface. Each capacitive deep trench isolation structure includes a conductive region insulated from the semiconductor substrate by an insulating liner. The conductive regions at first ends of the plurality of capacitive deep trench isolation structures are electrically connected to a first metallization level by electrical contacts. A bonding pad structure is located at the back side surface of the semiconductor substrate in direct physical and electrical connection to the conductive regions at second ends of the capacitive deep trench isolation structures.

A method for fabricating a bonding pad structure includes forming a dielectric layer on a substrate; forming a first metal pattern layer in the dielectric layer. The first metal pattern layer includes a first body portion having a plurality of first openings in a central region of the first body portion and a plurality of second openings arranged along a peripheral region of the first body portion and surrounding the plurality of first openings; and a plurality of first island portions correspondingly disposed in the plurality of second openings and spaced apart from the first body portion. The method further includes forming a plurality of first interconnect structures in the dielectric layer and corresponding to the plurality of first island portions; and forming a bonding pad on the dielectric layer and directly above the first metal pattern layer.

A bonding pad structure is provided. The structure includes a dielectric layer on a substrate. A bonding pad is disposed on the dielectric layer and a first metal pattern layer is embedded in the dielectric layer and directly below the bonding pad. The first metal pattern layer includes a first body portion and first island portions. The first body portion has first openings in a central region of the first body portion and second openings arranged along a peripheral region of the first body portion and surrounding the first openings. The first island portions are correspondingly disposed in the second openings and spaced apart from the first body portion. First interconnect structures are disposed in the dielectric layer and correspond to the first island portions, such that the bonding pad is electrically connected to the first island portions.

The present disclosure provides a semiconductor structure. The semiconductor structure comprises a semiconductive substrate and an interconnect structure over the semiconductive substrate. The semiconductor structure also comprises a bond pad in the semiconductive substrate and coupled to the metal layer. The bond pad comprises two conductive layers.