A semiconductor device includes a metal column that extends in a stretching direction; a polymer layer that surrounds the metal column from a direction crossing the stretching direction; and a guide that surrounds the polymer layer in the crossing direction so as to be spaced from the metal column with the polymer layer interposed therebetween. A method for manufacturing semiconductor devices includes a step of filling a mixture containing metal particles and polymers in a guide; and a step of subjecting the mixture to a heat treatment so that the polymers agglomerate to the guide to form a polymer layer that makes contact with the guide and the metal particles agglomerate away from the guide with the polymer layer interposed therebetween to form a metal column that stretches in a stretching direction of the guide from the metal particles.

Semiconductor device package assemblies and associated methods are disclosed herein. The semiconductor device package assembly includes (1) a base component having a front side and a back side, the base component having a first metallization structure at the front side; (2) a semiconductor device package having a first side, a second side with a recess, and a second metallization structure at the first side and a contacting region exposed in the recess at the second side; (3) an interconnect structure at least partially positioned in the recess at the second side of the semiconductor device package; and (4) a thermoset material or structure between the front side of the base component and the second side of the semiconductor device package. The interconnect structure is in the thermoset material and includes discrete conductive particles electrically coupled to one another.

To miniaturize metal columns. A semiconductor device includes a metal column (14) that extends in a stretching direction; a polymer layer (16) that surrounds the metal column from a direction crossing the stretching direction; and a guide (12) that surrounds the polymer layer in the crossing direction so as to be spaced from the metal column with the polymer layer interposed therebetween. A method for manufacturing semiconductor devices includes a step of filling a mixture (20) containing metal particles (22) and polymers (24) in a guide (12); and a step of subjecting the mixture to a heat treatment so that the polymers agglomerate to the guide to form a polymer layer (16) that makes contact with the guide and the metal particles agglomerate away from the guide with the polymer layer interposed therebetween to form a metal column (14) that stretches in a stretching direction of the guide from the metal particles.

A wiring substrate includes a connection pad formed in the outermost wiring layer, a dummy pad formed in the outermost wiring layer, and a dummy wiring portion formed in the outermost wiring layer, the dummy wiring portion connecting the connection pad and the dummy pad. The maximum width of each of the connection pad and the dummy pad is set to be larger than the width of the dummy wiring portion. A bump of an electronic component is flip-chip connected to a connection pad through a resin-containing solder.