A semiconductor device includes a silicon substrate, a first layer, a second layer, a barrier metal, and a gate pad. The first layer is formed of an oxide film provided on an upper surface of the silicon substrate. The second layer is a layer at least selectively having a projecting and recessed part on an upper surface of the first layer, the projecting and recessed part having a projection and recess deeper than a projection and recess occurring when the layer is formed in a planar shape. The barrier metal is formed on an upper surface of the second layer according to a shape of the projecting and recessed part. The gate pad is in close contact with the silicon substrate via the barrier metal.

A conductive polymer-solder ball structure is provided. The conductive polymer-solder ball structure includes a wafer having at least one metal pad providing an electrical conductive path to a substrate layer, a conductive polymer pad located directly on the wafer over the at least one metal pad, an electrolessly plated layer located on a surface of the conductive polymer pad, and a solder ball located on a surface of the electrolessly plated layer.

A sintering powder comprising copper particles, wherein: the particles are at least partially coated with a capping agent, and the particles exhibit a D10 of greater than or equal to 100 nm and a D90 of less than or equal to 2000 nm.

A sintering powder comprising copper particles, wherein: the particles are at least partially coated with a capping agent, and the particles exhibit a D10 of greater than or equal to 100 nm and a D90 of less than or equal to 2000 nm.

A chip package which includes a chip, at least one first dielectric layer, at least one second dielectric layer, at least one conductive circuit, and at least one third dielectric layer is provide. The conductive circuit is formed by highly concentrated silver paste or copper paste filled in at least one first groove of the first dielectric layer and at least one second groove of the second dielectric layer while at least one die pad of the chip is electrically connected with the conductive circuit for improving electrical conduction efficiency of the conductive circuit. Moreover, at least one die-pad bump is formed in the first groove, arranged at and electrically connected with a surface of the die pad for protecting of the die pad.

A semiconductor chip package includes a substrate; a semiconductor die mounted on the substrate, wherein the semiconductor die comprises a bond pad disposed on an active surface of the semiconductor die, and a passivation layer covering perimeter of the bond pad, wherein a bond pad opening in the passivation layer exposes a central area of the bond pad; a conductive paste post printed on the exposed central area of the bond pad; and a bonding wire secured to a top surface of the conductive paste post. The conductive paste post comprises copper paste.

A semiconductor chip package includes a substrate; a semiconductor die mounted on the substrate, wherein the semiconductor die comprises a bond pad disposed on an active surface of the semiconductor die, and a passivation layer covering perimeter of the bond pad, wherein a bond pad opening in the passivation layer exposes a central area of the bond pad; a conductive paste post printed on the exposed central area of the bond pad; and a bonding wire secured to a top surface of the conductive paste post. The conductive paste post comprises copper paste.

A sintering powder comprising copper particles, wherein: the particles are at least partially coated with a capping agent, and the particles exhibit a D10 of greater than or equal to 100 nm and a D90 of less than or equal to 2000 nm.

A sintering powder comprising copper particles, wherein: the particles are at least partially coated with a capping agent, and the particles exhibit a D10 of greater than or equal to 100 nm and a D90 of less than or equal to 2000 nm.

A semiconductor device may include: a semiconductor substrate; a surface electrode covering a surface of the semiconductor substrate; an insulating protection film covering a part of a surface of the surface electrode; and a solder-bonding metal film, the solder-bonding metal film covering a range spreading from a surface of the insulating protection film to the surface of the surface electrode, wherein the surface electrode may include: a first metal film provided on the semiconductor substrate; a second metal film being in contact with a surface of the first metal film, and having tensile strength higher than tensile strength of the first metal film; and a third metal film being in contact with a surface of the second metal film, and having tensile strength which is lower than the tensile strength of the second metal film and is higher than the tensile strength of the first metal film.