A semiconductor structure includes a first nitride semiconductor layer; a second nitride semiconductor layer and a first conductive structure. The second nitride semiconductor layer is disposed on the first nitride semiconductor layer. The first conductive structure is disposed on the second nitride semiconductor layer. The first conductive structure functions as one of a drain and a source of a transistor and one of an anode and a cathode of a diode.

The present disclosure relates to a semiconductor device and a fabrication method thereof. The semiconductor device includes a substrate, a first nitride semiconductor layer on the substrate and a second nitride semiconductor layer on the first nitride semiconductor layer. The second nitride semiconductor layer has a first area and a second area, and the second nitride semiconductor layer has single crystals. The semiconductor device includes an electrode in contact with the first area. A first concentration of Aluminum (Al) of the first area is less than a second concentration of Al of the second area, and the single crystals in the first area take over a crystal structure of the first nitride semiconductor layer.

Semiconductor device structures and methods for manufacturing the same are provided. The semiconductor device structure includes a substrate, a first nitride semiconductor layer, a second nitride semiconductor layer, a barrier layer, a third nitride semiconductor layer and a gate structure. The first nitride semiconductor layer is disposed on the substrate. The second nitride semiconductor layer is disposed on the first nitride semiconductor layer and has a bandgap greater than that of the first nitride semiconductor layer. The barrier layer is disposed on the second nitride semiconductor layer and has a bandgap greater than that of the second nitride semiconductor layer. The third nitride semiconductor layer is doped with impurity and disposed on the barrier layer. The gate structure is disposed on the third nitride semiconductor layer.

Semiconductor device structures and methods for manufacturing the same are provided. The semiconductor device structure includes a substrate, a first nitride semiconductor layer, a second nitride semiconductor layer, a first dielectric layer and a second dielectric layer. The first nitride semiconductor layer is disposed on the substrate. The second nitride semiconductor layer is disposed on the first nitride semiconductor layer and has a bandgap greater than that of the first nitride semiconductor layer. The first dielectric layer is disposed on the second nitride semiconductor layer. The second dielectric layer is disposed on the first dielectric layer. The second dielectric layer includes a first portion and a second portion separated from the first portion by a trench, wherein the trench terminates at an upper surface of the first dielectric layer.

A nitride semiconductor device includes: a substrate; a first nitride semiconductor layer; a second nitride semiconductor layer; a first opening penetrating through the second nitride semiconductor layer to the first nitride semiconductor layer; a second opening penetrating through the second nitride semiconductor layer to the first nitride semiconductor layer; an electron transport layer and an electron supply layer provided along an inner face of each of the first opening and the second opening and above the second nitride semiconductor layer; a gate electrode; an anode electrode; a third opening penetrating through the electron supply layer and the electron transport layer to the second nitride semiconductor layer; a source electrode in the third opening; a drain electrode; and a cathode electrode. The anode electrode and the source electrode are electrically connected, and the cathode electrode and the drain electrode are electrically connected.

Semiconductor device structures and methods for manufacturing the same are provided. The semiconductor device structure includes a substrate, a first nitride semiconductor layer, a second nitride semiconductor layer, a gate structure, a first spacer, a second spacer and a drain electrode. The first nitride semiconductor layer is disposed on the substrate. The second nitride semiconductor layer is disposed on the first nitride semiconductor layer. The gate structure is disposed on the second nitride semiconductor layer. The first spacer is disposed adjacent to a first surface of the gate structure. The second spacer is disposed adjacent to a second surface of the gate structure. The drain electrode is disposed relatively adjacent to the second spacer than the first space. The first spacer has a first length, and the second spacer has a second length greater than the first length along the first direction.

The present disclosure relates to a semiconductor device and a fabrication method thereof. The semiconductor device includes a substrate, a first nitride semiconductor layer disposed on the substrate, a second nitride semiconductor layer disposed on the first nitride semiconductor layer and having a bandgap greater than that of the first nitride semiconductor layer. The semiconductor device further includes a first gate conductor disposed on a first region of the second nitride semiconductor layer, a passivation layer covering the first gate conductor, and a second gate conductor disposed on the passivation layer and on a second region of the second nitride semiconductor layer, wherein the first region is laterally spaced apart from the second region.

The present disclosure relates to a semiconductor device and a fabrication method thereof. The semiconductor device includes a substrate, a first nitride semiconductor layer disposed on the substrate, a second nitride semiconductor layer disposed on the first nitride semiconductor layer and having a bandgap greater than that of the first nitride semiconductor layer. The semiconductor device further includes a first gate conductor disposed on a first region of the second nitride semiconductor layer, a first source electrode disposed on a first side of the first gate conductor, a first field plate disposed on a second side of the first gate conductor; and a capacitor having a first conductive layer and a second conductive layer and disposed on a second region of the second nitride semiconductor layer. Wherein the first conductive layer of the capacitor and the first source electrode have a first material, and the second conductive layer of the capacitor and the first field plate have a second material.

The present disclosure relates to a semiconductor device and a fabrication method thereof. The semiconductor device includes a substrate, a nitride semiconductor layer disposed on the substrate, a first gate stack in contact with the nitride semiconductor layer, and a resistor laterally spaced apart from the first gate stack and electrically connected to first gate stack. The resistor comprises a first conductive terminal in contact with the nitride semiconductor layer, a second conductive terminal in contact with the nitride semiconductor layer; a first doped region of the nitride semiconductor layer between the first conductive terminal and the second conductive terminal; and a first conductive region of the nitride semiconductor layer in contact with the first conductive terminal and the second conductive terminal.

Various embodiments of the present disclosure are directed toward an integrated chip including an undoped layer overlying a substrate. A first barrier layer overlies the undoped layer. A doped layer overlies the first barrier layer. Further, a second barrier layer overlies the first barrier layer, where the second barrier layer is laterally offset from a perimeter of the doped layer by a non-zero distance. The first and second barrier layers comprise a same III-V semiconductor material. A first atomic percentage of a first element within the first barrier layer is less than a second atomic percentage of the first element within the second barrier layer.