A semiconductor device includes: a conductive portion; and a semiconductor element mounted on the conductive portion, wherein the conductive portion is made of a plating layer, wherein the conductive portion includes a mounting portion having a mounting surface on which the semiconductor element is mounted, and a terminal portion extending to an opposite side of the semiconductor element with respect to the mounting portion, wherein the mounting portion extends in a first direction along the mounting surface more than the terminal portion, and wherein the mounting portion and the terminal portion are integrally formed.

The purpose of this invention is to provide a semiconductor device that prevents defects in semiconductor elements caused by differences in thermal expansion and maintains low electrical resistance by directly or indirectly laminating an FeNi alloy metal layer onto the front-surface or back-surface electrodes of the semiconductor element. In this invention, an FeNi alloy metal layer is directly or indirectly applied on the surface electrodes of the semiconductor element, and the semiconductor element is connected to a conductor through the FeNi alloy metal layer. Depending on the application, the Ni content of the FeNi alloy metal layer is set within the range of 36% to 45% by weight, and the thickness of the FeNi alloy metal layer is set within the range of 2 m to 20 m.

An apparatus comprising a first substrate, a dam structure disposed on a first side of the first substrate, and an integrated circuit (IC) memory chip coupled to the first side of the first substrate by a plurality of first conductive members. A second substrate is coupled to a second side of the first substrate by a plurality of second conductive members. A lid coupled to the second substrate encloses the IC memory chip and the first substrate. A thermal interface material (TIM) is coupled between the lid and the dam structure.