Semiconductor devices comprising a getter material are described. The getter material can be located in or over the active region of the device and/or in or over a termination region of the device. The getter material can be a conductive or an insulating material. The getter material can be present as a continuous or discontinuous film. The device can be a SiC semiconductor device such as a SiC vertical MOSFET. Methods of making the devices are also described. Semiconductor devices and methods of making the same comprising source ohmic contacts formed using a self-aligned process are also described. The source ohmic contacts can comprise titanium silicide and/or titanium silicide carbide and can act as a getter material.

A semiconductor device includes a first body having a first coefficient of thermal expansion (CTE) and a first surface, a third body having a third CTE and a third surface facing the first surface, and a fourth surface at an angle with respect to the third surface defining an edge of the third body, and a second body having a second CTE higher than the first and the third CTE, the second body contacting the first and the third surfaces. A post having a fourth CTE lower than the second CTE, transects the second body and contacts the edge.

A semiconductor device includes a first body having a first coefficient of thermal expansion (CTE) and a first surface, a third body having a third CTE and a third surface facing the first surface, and a fourth surface at an angle with respect to the third surface defining an edge of the third body, and a second body having a second CTE higher than the first and the third CTE, the second body contacting the first and the third surfaces. A post having a fourth CTE lower than the second CTE, transects the second body and contacts the edge.

An electronic device can include a semiconductor layer and a contact structure forming an ohmic contact with the layer. In an embodiment, the semiconductor layer can include a III-N material, and the contact structure includes a first phase and a second phase, wherein the first phase includes Al, the second phase includes a metal, and the first phase contacts the semiconductor layer. In another embodiment, the semiconductor layer can be a monocrystalline layer having a surface along a crystal plane. The contact structure can include a polycrystalline material including crystals having surfaces that contact the surface of the monocrystalline layer, wherein a lattice mismatch between the surface of the monocrystalline layer and the surfaces of the crystals is at most 20%.

A semiconductor package includes a semiconductor chip including a chip pad on a first surface thereof, an external pad electrically connected to the chip pad of the semiconductor chip, an external connection terminal covering the external pad, and an intermediate layer between the external pad and the external connection terminal, the intermediate layer including a third metal material that is different from a first metal material included in the external pad and a second metal material included in the external connection terminal.

A semiconductor package includes a semiconductor chip including a chip pad on a first surface thereof, an external pad electrically connected to the chip pad of the semiconductor chip, an external connection terminal covering the external pad, and an intermediate layer between the external pad and the external connection terminal, the intermediate layer including a third metal material that is different from a first metal material included in the external pad and a second metal material included in the external connection terminal.

An electronic device can include a semiconductor layer and a contact structure forming an ohmic contact with the layer. In an embodiment, the semiconductor layer can include a III-N material, and the contact structure includes a first phase and a second phase, wherein the first phase includes Al, the second phase includes a metal, and the first phase contacts the semiconductor layer. In another embodiment, the semiconductor layer can be a monocrystalline layer having a surface along a crystal plane. The contact structure can include a polycrystalline material including crystals having surfaces that contact the surface of the monocrystalline layer, wherein a lattice mismatch between the surface of the monocrystalline layer and the surfaces of the crystals is at most 20%.

A semiconductor device includes a semiconductor substrate and a connection terminal, including a base pillar, on the semiconductor substrate. An insulation layer is formed on the semiconductor substrate, the insulation layer including an opening in the insulation layer through which the base pillar extends, wherein a side wall of the insulation layer defining the opening includes a horizontal step at a level that is lower than an uppermost portion of the base pillar.

A semiconductor device includes a semiconductor substrate and a connection terminal, including a base pillar, on the semiconductor substrate. An insulation layer is formed on the semiconductor substrate, the insulation layer including an opening in the insulation layer through which the base pillar extends, wherein a side wall of the insulation layer defining the opening includes a horizontal step at a level that is lower than an uppermost portion of the base pillar.

The present application discloses a method for fabricating a semiconductor device with slanted conductive layers. The method for fabricating a semiconductor device includes providing a substrate, forming a first insulating layer above the substrate, forming first slanted recesses along the first insulating layer, and forming first slanted conductive layers in the first slanted recesses and a top conductive layer covering the first slanted conductive layers.