A method of forming a bonding element including a first transient liquid phase (TLP) bonding element including a first material and a second material, the first material having a higher melting point than the second material, a ratio of a quantity of the first material and the second material in the first TLP bonding element having a first value, and a second TLP bonding element including the first material and the second material, a ratio of a quantity of the first material and the second material in the second TLP bonding element having a second value different from the first value.

A semiconductor device and a semiconductor package including the same are provided. The semiconductor device includes a semiconductor element; a protective layer disposed adjacent to the surface of the semiconductor element, the protective layer defining an opening to expose the semiconductor element; a first bump disposed on the semiconductor element; and a second bump disposed onto the surface of the protective layer. The first bump has a larger cross-section surface area than the second bump.

A semiconductor device and a semiconductor package including the same are provided. The semiconductor device includes a semiconductor element; a protective layer disposed adjacent to the surface of the semiconductor element, the protective layer defining an opening to expose the semiconductor element; a first bump disposed on the semiconductor element; and a second bump disposed onto the surface of the protective layer. The first bump has a larger cross-section surface area than the second bump.

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.

Semiconductor apparatus and method for manufacturing semiconductor apparatus are provided. Semiconductor apparatus includes a semiconductor substrate having metal pads, a first passivation layer, a second passivation layer, an under bump metal layer, a stress buffer layer, a copper pillar and a solder structure. First passivation layer is formed on the semiconductor substrate and covers a portion of each metal pad, the first passivation layer has first passivation layer openings to expose a first portion of each metal pad. Second passivation layer is formed on the first passivation layer, the second passivation layer has second passivation layer openings to expose a second portion of each metal pad. Under bump metal layer is formed on the second portion of each metal pad exposed by the second passivation layer opening. Stress buffer layer is formed on the under bump metal layer, and the copper pillar is disposed on the stress buffer layer.

Semiconductor apparatus and method for manufacturing semiconductor apparatus are provided. Semiconductor apparatus includes a semiconductor substrate having metal pads, a first passivation layer, a second passivation layer, an under bump metal layer, a stress buffer layer, a copper pillar and a solder structure. First passivation layer is formed on the semiconductor substrate and covers a portion of each metal pad, the first passivation layer has first passivation layer openings to expose a first portion of each metal pad. Second passivation layer is formed on the first passivation layer, the second passivation layer has second passivation layer openings to expose a second portion of each metal pad. Under bump metal layer is formed on the second portion of each metal pad exposed by the second passivation layer opening. Stress buffer layer is formed on the under bump metal layer, and the copper pillar is disposed on the stress buffer layer.

A method of manufacture of an integrated circuit system includes: providing a semiconductor wafer with a bond pad; attaching a detachable carrier to the semiconductor wafer, the detachable carrier including a carrier frame portion and a terminal structure; removing the carrier frame portion with the terminal structure attached to the semiconductor wafer; and forming an encapsulation encapsulating the semiconductor wafer, the bond pad, and the terminal structure.

A method of manufacture of an integrated circuit system includes: providing a semiconductor wafer with a bond pad; attaching a detachable carrier to the semiconductor wafer, the detachable carrier including a carrier frame portion and a terminal structure; removing the carrier frame portion with the terminal structure attached to the semiconductor wafer; and forming an encapsulation encapsulating the semiconductor wafer, the bond pad, and the terminal structure.

A semiconductor package and a method of manufacturing the same are provided. The semiconductor package includes a semiconductor die, a cap layer, a conductive terminal, and a dam structure. The semiconductor die has a first surface. The cap layer is over the semiconductor die and has a second surface facing the first surface of the semiconductor die. The conductive terminal penetrates the cap layer and electrically connects to the semiconductor die. The dam structure is between the semiconductor die and the cap layer and surrounds a portion of the conductive terminal between the first surface and the second surface, thereby forming a gap between the cap layer and the semiconductor die.