A semiconductor device includes a doped Si base substrate, one or more device epitaxial layers formed over a main surface of the doped Si base substrate, a diffusion barrier structure, and a gate formed above the diffusion barrier structure. The diffusion barrier structure includes alternating layers of Si and oxygen-doped Si formed in an upper part of the doped Si base substrate adjacent the main surface of the doped Si base substrate, in a lower part of the one or more device epitaxial layers adjacent the main surface of the doped Si base substrate, or in one or more additional epitaxial layers disposed between the main surface of the doped Si base substrate and the one or more device epitaxial layers.

A silicon carbide semiconductor substrate includes an epitaxial layer. A difference of a donor concentration and an acceptor concentration of the epitaxial layer is within a range from 110.sup.14/cm.sup.3 to 110.sup.15/cm.sup.3. Further, the donor concentration and the acceptor concentration of the epitaxial layer are a concentration unaffected by an impurity inside epitaxial growth equipment.

A III-nitride tunnel junction with a modified p-n interface, wherein the modified p-n interface includes a delta-doped layer to reduce tunneling resistance. The delta-doped layer may be doped using donor atoms comprised of Oxygen (O), Germanium (Ge) or Silicon (Si); acceptor atoms comprised of Magnesium (Mg) or Zinc (Zn); or impurities comprised of Iron (Fe) or Carbon (C).

A technique relates to a semiconductor device. A bipolar transistor includes an emitter layer and a base layer, where the emitter layer and the base layer are doped with an impurity, the impurity being a same for the emitter and base layers. The bipolar transistor includes a collector layer.

A semiconductor structure includes a substrate, a source/drain (S/D) junction, and an S/D contact. The S/D junction is associated with the substrate and includes a trench-defining wall, a semiconductor layer, and a semiconductor material. The trench-defining wall defines a trench. The semiconductor layer is formed over the trench-defining wall, partially fills the trench, substantially covers the trench-defining wall, and includes germanium. The semiconductor material is formed over the semiconductor layer and includes germanium, a percentage composition of which is greater than a percentage composition of the germanium of the semiconductor layer. The S/D contact is formed over the S/D junction.

There is provided a nitride semiconductor substrate, including: a substrate configured as an n-type semiconductor substrate; and a drift layer provided on the substrate and configured as a gallium nitride layer containing donors and carbons, wherein a concentration of the donors in the drift layer is 5.010.sup.16/cm.sup.3 or less, and is equal to or more than a concentration of the carbons that function as acceptors in the drift layer, over an entire area of the drift layer, and a difference obtained by subtracting the concentration of the carbons that function as acceptors in the drift layer from the concentration of the donors in the drift layer, is gradually decreased from a substrate side toward a surface side of the drift layer.

A silicon carbide semiconductor substrate includes an epitaxial layer. A difference of a donor concentration and an acceptor concentration of the epitaxial layer is within a range from 110.sup.14/cm.sup.3 to 110.sup.15/cm.sup.3. Further, the donor concentration and the acceptor concentration of the epitaxial layer are a concentration unaffected by an impurity inside epitaxial growth equipment.

A technique relates to a semiconductor device. A bipolar transistor includes an emitter layer and a base layer, where the emitter layer and the base layer are doped with an impurity, the impurity being a same for the emitter and base layers. The bipolar transistor includes a collector layer.

A semiconductor device includes a doped Si base substrate, one or more device epitaxial layers formed over a main surface of the doped Si base substrate, a diffusion barrier structure, and a gate formed above the diffusion barrier structure. The diffusion barrier structure includes alternating layers of Si and oxygen-doped Si formed in an upper part of the doped Si base substrate adjacent the main surface of the doped Si base substrate, in a lower part of the one or more device epitaxial layers adjacent the main surface of the doped Si base substrate, or in one or more additional epitaxial layers disposed between the main surface of the doped Si base substrate and the one or more device epitaxial layers.

A technique relates to a semiconductor device. A bipolar transistor includes an emitter layer and a base layer, where the emitter layer and the base layer are doped with an impurity, the impurity being a same for the emitter and base layers. The bipolar transistor includes a collector layer.