An integrated circuit (IC) die structure comprises a substrate material comprising silicon. Integrated circuitry is over a first side of the substrate material. A composite layer is in direct contact with a second side of the substrate material. The second side is opposite the first side. The composite layer comprises a first constituent material associated with a first linear coefficient of thermal expansion (CTE), and a first thermal conductivity exceeding that of the substrate. The composite layer also comprises a second constituent material associated with a second CTE that is lower than the first, and a second thermal conductivity exceeding that of the substrate.

An integrated circuit (IC) die structure comprises a substrate material comprising silicon. Integrated circuitry is over a first side of the substrate material. A composite layer is in direct contact with a second side of the substrate material. The second side is opposite the first side. The composite layer comprises a first constituent material associated with a first linear coefficient of thermal expansion (CTE), and a first thermal conductivity exceeding that of the substrate. The composite layer also comprises a second constituent material associated with a second CTE that is lower than the first, and a second thermal conductivity exceeding that of the substrate.

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 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 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 method of manufacturing an electronic device may include: forming at least one electronic component in a substrate; forming a contact pad in electrical contact with the at least one electronic component; wherein forming the contact pad includes: forming a first layer over the substrate; planarizing the first layer to form a planarized surface of the first layer; and forming a second layer over the planarized surface, wherein the second layer has a lower porosity than the first layer.

A method of manufacturing an electronic device may include: forming at least one electronic component in a substrate; forming a contact pad in electrical contact with the at least one electronic component; wherein forming the contact pad includes: forming a first layer over the substrate; planarizing the first layer to form a planarized surface of the first layer; and forming a second layer over the planarized surface, wherein the second layer has a lower porosity than the first layer.