A semiconductor device may include: a semiconductor substrate; a surface electrode covering a surface of the semiconductor substrate; an insulating protection film covering a part of a surface of the surface electrode; and a solder-bonding metal film, the solder-bonding metal film covering a range spreading from a surface of the insulating protection film to the surface of the surface electrode, wherein the surface electrode may include: a first metal film provided on the semiconductor substrate; a second metal film being in contact with a surface of the first metal film, and having tensile strength higher than tensile strength of the first metal film; and a third metal film being in contact with a surface of the second metal film, and having tensile strength which is lower than the tensile strength of the second metal film and is higher than the tensile strength of the first metal film.

A semiconductor die and a method for manufacturing a semiconductor die are disclosed. In an embodiment a semiconductor die includes a base body having a semiconductor material and a surface with two contact areas having contact pads at which the semiconductor die is electrically contactable and two metal caps arranged directly at the contact pads.

A semiconductor die and a method for manufacturing a semiconductor die are disclosed. In an embodiment a semiconductor die includes a base body having a semiconductor material and a surface with two contact areas having contact pads at which the semiconductor die is electrically contactable and two metal caps arranged directly at the contact pads.

A sintering powder comprising copper particles, wherein: the particles are at least partially coated with a capping agent, and the particles exhibit a D10 of greater than or equal to 100 nm and a D90 of less than or equal to 2000 nm.

A sintering powder comprising copper particles, wherein: the particles are at least partially coated with a capping agent, and the particles exhibit a D10 of greater than or equal to 100 nm and a D90 of less than or equal to 2000 nm.

A semiconductor device may include: a semiconductor substrate; a surface electrode covering a surface of the semiconductor substrate; an insulating protection film covering a part of a surface of the surface electrode; and a solder-bonding metal film, the solder-bonding metal film covering a range spreading from a surface of the insulating protection film to the surface of the surface electrode, wherein the surface electrode may include: a first metal film provided on the semiconductor substrate; a second metal film being in contact with a surface of the first metal film, and having tensile strength higher than tensile strength of the first metal film; and a third metal film being in contact with a surface of the second metal film, and having tensile strength which is lower than the tensile strength of the second metal film and is higher than the tensile strength of the first metal film.

A semiconductor device may include: a semiconductor substrate; a surface electrode covering a surface of the semiconductor substrate; an insulating protection film covering a part of a surface of the surface electrode; and a solder-bonding metal film, the solder-bonding metal film covering a range spreading from a surface of the insulating protection film to the surface of the surface electrode, wherein the surface electrode may include: a first metal film provided on the semiconductor substrate; a second metal film being in contact with a surface of the first metal film, and having tensile strength higher than tensile strength of the first metal film; and a third metal film being in contact with a surface of the second metal film, and having tensile strength which is lower than the tensile strength of the second metal film and is higher than the tensile strength of the first metal film.

A method of manufacturing a layer structure includes: forming a first layer over a substrate; planarizing the first layer to form a planarized surface of the first layer; and forming a second layer over the planarized surface; wherein a porosity of the first layer is greater than a porosity of the substrate and greater than a porosity of the second layer; wherein the second layer is formed by physical vapor deposition; and wherein the first layer and the second layer are formed from the same solid material.

A method of manufacturing a layer structure includes: forming a first layer over a substrate; planarizing the first layer to form a planarized surface of the first layer; and forming a second layer over the planarized surface; wherein a porosity of the first layer is greater than a porosity of the substrate and greater than a porosity of the second layer; wherein the second layer is formed by physical vapor deposition; and wherein the first layer and the second layer are formed from the same solid material.

A semiconductor chip package includes a substrate; a semiconductor die mounted on the substrate, wherein the semiconductor die comprises a bond pad disposed on an active surface of the semiconductor die, and a passivation layer covering perimeter of the bond pad, wherein a bond pad opening in the passivation layer exposes a central area of the bond pad; a conductive paste post printed on the exposed central area of the bond pad; and a bonding wire secured to a top surface of the conductive paste post. The conductive paste post comprises copper paste.