The present disclosure relates to a flip-chip package with a hollow-cavity and reinforced interconnects, and a process for making the same. The disclosed flip-chip package includes a substrate, a reinforcement layer over an upper surface of the substrate, a flip-chip die attached to the upper surface of the substrate by interconnects through the reinforcement layer, an air cavity formed between the substrate and the flip-chip die, and a protective layer encapsulating the flip-chip die and defining a perimeter of the air cavity. Herein, a first portion of each interconnect is encapsulated by the reinforcement layer and a second portion of each interconnect is exposed to the air cavity. The reinforcement layer provides reinforcement to each interconnect.

The present invention provides a bonding method in semiconductor manufacturing process and a bonding structure formed using the same, which can achieve wafer-level bonding under a condition of normal temperature and low pressure. The bonding method comprises generating bonding structures capable of being mutually mechanical interlocked, wherein the frictional heat generated by the bonding structures capable of being mutually mechanical interlocked is higher than the bonding energy therebetween, and utilizing the frictional heat generated by the bonding structures capable of being mutually mechanical interlocked to bond the bonding structures capable of being mutually mechanical interlocked.

According to one embodiment, a first electrode is formed on a first face of a first semiconductor chip, and a second electrode and a protrusion are formed on a second face of a second semiconductor chip. The first semiconductor chip and the second semiconductor chip are spaced from one another by the protrusion in such a manner that the first face and the second face face each other. The first semiconductor chip and the second semiconductor chip are subject to reflow to be electrically connected to each other, and then the protrusion is cured at a temperature lower than a reflow temperature.