A semiconductor device structure is provided. The semiconductor device structure includes a first conductive line over a substrate. The semiconductor device structure includes a first protection cap over the first conductive line. The semiconductor device structure includes a first photosensitive dielectric layer over the substrate, the first conductive line, and the first protection cap. The semiconductor device structure includes a conductive via structure passing through the first photosensitive dielectric layer and connected to the first protection cap. The semiconductor device structure includes a second conductive line over the conductive via structure and the first photosensitive dielectric layer. The semiconductor device structure includes a second protection cap over the second conductive line. The semiconductor device structure includes a second photosensitive dielectric layer over the first photosensitive dielectric layer, the second conductive line, and the second protection cap.

A semiconductor device structure is provided. The semiconductor device structure includes a first conductive line over a substrate. The semiconductor device structure includes a first protection cap over the first conductive line. The semiconductor device structure includes a first photosensitive dielectric layer over the substrate, the first conductive line, and the first protection cap. The semiconductor device structure includes a conductive via structure passing through the first photosensitive dielectric layer and connected to the first protection cap. The semiconductor device structure includes a second conductive line over the conductive via structure and the first photosensitive dielectric layer. The semiconductor device structure includes a second protection cap over the second conductive line. The semiconductor device structure includes a second photosensitive dielectric layer over the first photosensitive dielectric layer, the second conductive line, and the second protection cap.

A semiconductor device is presented. The semiconductor device comprises a semiconductor body coupled to a first load terminal and to a second load terminal and configured to carry a load current between the first load terminal and the second load terminal. The first load terminal comprises a contiguous metal layer coupled to the semiconductor body; and at least one metal island arranged on top of and in contact with the contiguous metal layer and configured to be contacted by an end of a bond wire and to receive at least a part of the load current by means of the bond wire, wherein the contiguous metal layer and the metal island are composed of the same metal.

A method for forming a semiconductor device structure is provided. The method includes forming a first conductive line over a substrate. The method includes forming a first protection cap over a first portion of the first conductive line. The first protection cap and the first conductive line are made of different conductive materials. The method includes forming a first photosensitive dielectric layer over the substrate, the first conductive line, and the first protection cap. The method includes forming a first opening in the first photosensitive dielectric layer and over the first protection cap. The method includes forming a conductive via structure and a second conductive line over the first conductive line. The conductive via structure is in the first opening and over the first protection cap, and the second conductive line is over the conductive via structure and the first photosensitive dielectric layer.

A method for forming a semiconductor device structure is provided. The method includes forming a first conductive line over a substrate. The method includes forming a first protection cap over a first portion of the first conductive line. The first protection cap and the first conductive line are made of different conductive materials. The method includes forming a first photosensitive dielectric layer over the substrate, the first conductive line, and the first protection cap. The method includes forming a first opening in the first photosensitive dielectric layer and over the first protection cap. The method includes forming a conductive via structure and a second conductive line over the first conductive line. The conductive via structure is in the first opening and over the first protection cap, and the second conductive line is over the conductive via structure and the first photosensitive dielectric layer.

Embodiments relate to the design of a device capable of increasing the electrical performance of an interconnect feature by amplifying the current carrying capacity of an interconnect feature. The device comprises a first body comprising a first surface with at least one nanoporous conductive structure protruding from the first surface. The device further comprises a second body comprising a second surface with arrays of nanofibers extending from the second surface and penetrating into corresponding nanoporous conductive structures to form conductive pathways between the first body and the second body.

A semiconductor chip includes: a base substrate; a conductive pad on one surface of the base substrate; an insulating layer on the one surface of the base substrate and having an opening exposing a portion of the conductive pad; and a bump on the exposed portion of the conductive pad and on the insulating layer around the opening. The bump includes a plurality of concave portions corresponding to the opening and is arranged in a longitudinal direction of the bump.

A semiconductor chip includes: a base substrate; a conductive pad on one surface of the base substrate; an insulating layer on the one surface of the base substrate and having an opening exposing a portion of the conductive pad; and a bump on the exposed portion of the conductive pad and on the insulating layer around the opening. The bump includes a plurality of concave portions corresponding to the opening and is arranged in a longitudinal direction of the bump.

A semiconductor device includes an electronic circuit, an interconnection contact such as a solder ball, and a plate configured to concentrate magnetic flux to a predetermined area. The plate is electrically conductive, and it is electrically connected to the electronic circuit.

A semiconductor device includes an electronic circuit, an interconnection contact such as a solder ball, and a plate configured to concentrate magnetic flux to a predetermined area. The plate is electrically conductive, and it is electrically connected to the electronic circuit.