The present invention relates to an adhesive agent which can be used in the mounting of a semiconductor chip on a circuit board or the like. The present invention addresses the problem of providing an adhesive agent having both excellent storage stability and excellent connection reliability. A means for solving the problem is an adhesive agent comprising (a) a polyamide, (b) an epoxy compound and (c) an acid-modified rosin.

Dies and/or wafers including conductive features at the bonding surfaces are stacked and direct hybrid bonded at a reduced temperature. The surface mobility and diffusion rates of the materials of the conductive features are manipulated by adjusting one or more of the metallographic texture or orientation at the surface of the conductive features and the concentration of impurities within the materials.

Dies and/or wafers including conductive features at the bonding surfaces are stacked and direct hybrid bonded at a reduced temperature. The surface mobility and diffusion rates of the materials of the conductive features are manipulated by adjusting one or more of the metallographic texture or orientation at the surface of the conductive features and the concentration of impurities within the materials.

A method for fabricating a semiconductor structure includes providing a substrate with a first surface and a second surface, wherein at least one soldering pad is formed on the first surface of the substrate. The method also includes forming at least one via to expose each soldering pad by etching the substrate from the second surface, forming a seed layer to cover the second surface of the substrate and the sidewall and the bottom surfaces of each via, and then forming a redistribution metal layer over a portion of the seed layer formed on the sidewall and the bottom surfaces of each via and the second surface of the substrate surrounding each via. The method further includes alternately performing a pre-wetting process and a chemical etching process to completely remove the portion of the seed layer not covered by the redistribution metal layer.

A method for fabricating a semiconductor structure includes providing a substrate with a first surface and a second surface, wherein at least one soldering pad is formed on the first surface of the substrate. The method also includes forming at least one via to expose each soldering pad by etching the substrate from the second surface, forming a seed layer to cover the second surface of the substrate and the sidewall and the bottom surfaces of each via, and then forming a redistribution metal layer over a portion of the seed layer formed on the sidewall and the bottom surfaces of each via and the second surface of the substrate surrounding each via. The method further includes alternately performing a pre-wetting process and a chemical etching process to completely remove the portion of the seed layer not covered by the redistribution metal layer.

A method for producing a structure by direct bonding of two elements, the method including: production of the elements to be assembled and assembly of the elements. The production of the elements to be assembled includes: deposition on a substrate of a TiN layer by physical vapor deposition, and deposition of a copper layer on the TiN layer. The assembly of the elements includes: polishing the surfaces of the copper layers intended to come into contact so that they have a roughness of less than 1 nm RMS and hydrophilic properties, bringing the surfaces into contact, and storing the structure at atmospheric pressure and at ambient temperature.

Embodiments of a thermal compression bonding process bond head and a method for producing a thermal compression bonding process bond head are disclosed. In some embodiments, the bond head includes a thermal compression bonding process heater and a cooling block coupled to the heater through an annular structure. The annular structure surrounds a lower portion of the cooling block and couples the cooling block to the heater such that there is no direct mechanical contact between the cooling block and the heater.

A structure of a semiconductor package is disclosed. The structure includes a first substrate including a first interconnect structure. The structure includes a second substrate including a second interconnect structure, the second substrate bonded to the first substrate. The structure includes a connection pad interposed between the first interconnect structure and the second interconnect structure. The connection pad includes a material configured to switch between a high resistance state and a low resistance state. The material of the connection pad includes a phase change material.