An integrated circuit structure includes a substrate, a metal pad over the substrate, a passivation layer having a portion over the metal pad, and a polymer layer over the passivation layer. A Post-Passivation Interconnect (PPI) has a portion over the polymer layer, wherein the PPI is electrically coupled to the metal pad. The integrated circuit structure further includes a first solder region over and electrically coupled to a portion of the PPI, a second solder region neighboring the first solder region, a first coating material on a surface of the first solder region, and a second coating material on a surface of the second solder region. The first coating material and the second coating material encircle the first solder region and the second solder region, respectively. The first coating material is spaced apart from the second coating material.

Package structures and methods for forming the same are provided. A fan-out package structure includes a semiconductor substrate. The package structure also includes a connector over a top surface of the semiconductor substrate. The package structure further includes a buffer layer surrounding the connector and overlying a sidewall of the semiconductor substrate. In addition, the package structure includes an encapsulation layer surrounding the buffer layer. The buffer layer is between the encapsulation layer and the sidewall of the semiconductor substrate. The package structure also includes a redistribution layer (RDL) over the buffer layer and the encapsulation layer. The redistribution layer is electrically connected to the connector.

According to this disclosure, a method of manufacturing an electronic device is provided, which includes exposing a top surface of a first electrode of a first electronic component to organic acid, irradiating the top surface of the first electrode exposed to the organic acid with ultraviolet light, and bonding the first electrode and a second electrode of a second electronic component by heating and pressing the first electrode and the second electrode each other.

According to this disclosure, a method of manufacturing an electronic device is provided, which includes exposing a top surface of a first electrode of a first electronic component to organic acid, irradiating the top surface of the first electrode exposed to the organic acid with ultraviolet light, and bonding the first electrode and a second electrode of a second electronic component by heating and pressing the first electrode and the second electrode each other.

A solder bump structure for a ball grid array (BGA) includes at least one under bump metal (UBM) layer and a solder bump formed over the at least one UBM layer. The solder bump has a bump width and a bump height and the ratio of the bump height over the bump width is less than 1.

A solder bump structure for a ball grid array (BGA) includes at least one under bump metal (UBM) layer and a solder bump formed over the at least one UBM layer. The solder bump has a bump width and a bump height and the ratio of the bump height over the bump width is less than 1.

A system includes a semiconductor chip and a plurality of interconnects. The semiconductor chip has a bottom or top surface divided into two or more zones. The interconnects are formed over the zones. The interconnects in each zone are arranged in an array of rows. Each interconnect in a first zone is connected to a respective first interconnect in a fourth zone. The interconnects from top to bottom rows in the first zone are symmetric with the interconnects from bottom to top rows in the fourth zone about the y-axis. Each interconnect in a second zone is connected to a respective interconnect in a third zone. The interconnects from top to bottom rows in the second zone are symmetric with the interconnects from bottom to top rows in the third zone about the y-axis.