A semiconductor device includes a semiconductor element, a conductive member, and solder portions. The semiconductor element includes first main electrodes and a protective film on a first main surface, and a second main electrode on a second main surface. The protective film has an interposed film portion between the first main electrodes. The conductive member has facing portions each facing a corresponding one of the first main electrodes and an interposed conductive portion disposed between the facing portions. The solder portions are disposed between the first main electrodes and the facing portions and separated away from each other by the interposed film portion and the interposed conductive portion to define a space between the solder portions. The interposed film portion and the interposed conductive portion are less likely wetted to the solder portions to avoid the solder portions in liquid phase entering into the space during soldering.

A semiconductor package includes a plurality of metal leads and a semiconductor die attached to the plurality of metal leads by an interconnect. A surface of the plurality of metal leads, a metallized surface of the semiconductor die, and/or a surface of the interconnect comprises Cu and has a thermal conductivity in a range of 340 to 400 W/mK and an electrical conductivity in a range of 80 to 110% IACS. One or more of the surfaces which comprise Cu and have a thermal conductivity in the range of 340 to 400 W/mK and an electrical conductivity in the range of 80 to 110% IACS also includes micropores having a diameter in a range of 1 m to 10 m. A method of manufacturing a metal surface with such micropores also is described.

A semiconductor package includes a plurality of metal leads and a semiconductor die attached to the plurality of metal leads by an interconnect. A surface of the plurality of metal leads, a metallized surface of the semiconductor die, and/or a surface of the interconnect comprises Cu and has a thermal conductivity in a range of 340 to 400 W/mK and an electrical conductivity in a range of 80 to 110% IACS. One or more of the surfaces which comprise Cu and have a thermal conductivity in the range of 340 to 400 W/mK and an electrical conductivity in the range of 80 to 110% IACS also includes micropores having a diameter in a range of 1 m to 10 m. A method of manufacturing a metal surface with such micropores also is described.

A semiconductor device includes a semiconductor element, a conductive member, and solder portions. The semiconductor element includes first main electrodes and a protective film on a first main surface, and a second main electrode on a second main surface. The protective film has an interposed film portion between the first main electrodes. The conductive member has facing portions each facing a corresponding one of the first main electrodes and an interposed conductive portion disposed between the facing portions. The solder portions are disposed between the first main electrodes and the facing portions and separated away from each other by the interposed film portion and the interposed conductive portion to define a space between the solder portions. The interposed film portion and the interposed conductive portion are less likely wetted to the solder portions to avoid the solder portions in liquid phase entering into the space during soldering.

A semiconductor device includes a semiconductor element, a conductive member, and solder portions. The semiconductor element includes first main electrodes and a protective film on a first main surface, and a second main electrode on a second main surface. The protective film has an interposed film portion between the first main electrodes. The conductive member has facing portions each facing a corresponding one of the first main electrodes and an interposed conductive portion disposed between the facing portions. The solder portions are disposed between the first main electrodes and the facing portions and separated away from each other by the interposed film portion and the interposed conductive portion to define a space between the solder portions. The interposed film portion and the interposed conductive portion are less likely wetted to the solder portions to avoid the solder portions in liquid phase entering into the space during soldering.