A method for interconnecting two conductors includes creating a first nickel layer on a first conductor of an electrical component, producing a first non-gold protective layer on the first nickel layer, the first non-gold protective layer being configured to prevent the first nickel layer from oxidizing, creating a second nickel layer on a second conductor, producing a second non-gold protective layer on the second nickel layer, the second non-gold protective layer being configured to prevent the second nickel layer from oxidizing, and interconnecting the first and second nickel layers using a solder layer that interfaces with the first and second nickel layers between the first and second conductors.

A method for interconnecting two conductors includes creating a first nickel layer on a first conductor of an electrical component, producing a first non-gold protective layer on the first nickel layer, the first non-gold protective layer being configured to prevent the first nickel layer from oxidizing, creating a second nickel layer on a second conductor, producing a second non-gold protective layer on the second nickel layer, the second non-gold protective layer being configured to prevent the second nickel layer from oxidizing, and interconnecting the first and second nickel layers using a solder layer that interfaces with the first and second nickel layers between the first and second conductors.

The present invention is directed to a method for interconnecting two components. The first component includes a first substrate and a set of structured metal pads arranged on a main surface. Each of the pads includes one or more channels, extending in-plane with an average plane of the pad, so as to form at least two raised structures. The second interconnect component includes a second substrate and a set of metal pillars arranged on a main surface. The structured metal pads are bonded to a respective, opposite one of the metal pillars, using metal paste. The paste is sintered to form porous metal joints at the level of the channels. Metal interconnects are obtained between the substrates. During the bonding, the metal paste is sintered by exposing the structured metal pads and metal pillars to a reducing agent. The channels and raised structures improve the penetration of the reducing agent.

The present invention is directed to a method for interconnecting two components. The first component includes a first substrate and a set of structured metal pads arranged on a main surface. Each of the pads includes one or more channels, extending in-plane with an average plane of the pad, so as to form at least two raised structures. The second interconnect component includes a second substrate and a set of metal pillars arranged on a main surface. The structured metal pads are bonded to a respective, opposite one of the metal pillars, using metal paste. The paste is sintered to form porous metal joints at the level of the channels. Metal interconnects are obtained between the substrates. During the bonding, the metal paste is sintered by exposing the structured metal pads and metal pillars to a reducing agent. The channels and raised structures improve the penetration of the reducing agent.