摘要:
A transistor having a narrow bandgap semiconductor source/drain region is described. The transistor includes a gate electrode formed on a gate dielectric layer formed on a silicon layer. A pair of source/drain regions are formed on opposite sides of the gate electrode wherein said pair of source/drain regions comprise a narrow bandgap semiconductor film formed in the silicon layer on opposite sides of the gate electrode.
摘要:
Oxidation between a higher dielectric constant material such as a rare earth oxide and a substrate may be reduced by providing a seal layer over the gate dielectric. In some embodiments, the seal layer may be isolated from the gate dielectric by a buffer layer.
摘要:
Ambipolar conduction can be reduced in carbon nanotube transistors by forming a gate electrode of a metal. Metal sidewall spacers having different workfunctions than the gate electrode may be formed to bracket the metal gate electrode.
摘要:
Complementary metal oxide semiconductor integrated circuits may be formed with NMOS and PMOS transistors having different gate dielectrics. The different gate dielectrics may be formed, for example, by a subtractive process. The gate dielectrics may differ in material, thickness, or formation techniques, as a few examples.
摘要:
Complementary metal oxide semiconductor metal gate transistors may be formed by depositing a metal layer in trenches formerly inhabited by patterned gate structures. The patterned gate structures may have been formed of polysilicon in one embodiment. The metal layer may have a workfunction most suitable for forming one type of transistor, but is used to form both the n and p-type transistors. The workfunction of the metal layer may be converted, for example, by ion implantation to make it more suitable for use in forming transistors of the opposite type.
摘要:
In a metal gate replacement process, a gate electrode stack may be formed of a germanium containing layer. In subsequent processing of the source/drains, high temperature steps may be utilized, forming a germinide on said stacks. That germinide may be removed, prior to removing the rest of the stack, using H2O2.
摘要翻译:在金属栅极替换工艺中,栅电极堆叠可以由含锗层形成。 在源/下水道的后续处理中,可以利用高温步骤,在所述堆上形成发芽。 在使用H 2 O 2 O 2除去堆叠的其余部分之前,可以除去该发芽物。
摘要:
Methods and associated structures of forming a microelectronic device are described. Those methods comprise providing a substrate comprising a first transistor structure comprising an n-type gate material and second transistor structure comprising a p-type gate material, selectively removing the n-type gate material to form a recess in the first gate structure, and then filling the recess with an n-type metal gate material.
摘要:
A method for making a semiconductor device is described. That method comprises forming a dummy dielectric layer that is at least about 10 angstroms thick on a substrate, and forming a sacrificial layer on the dummy dielectric layer. After removing the sacrificial layer and the dummy dielectric layer to generate a trench that is positioned between first and second spacers, a gate dielectric layer is formed on the substrate at the bottom of the trench, and a metal layer is formed on the gate dielectric layer.
摘要:
A method of patterning a semiconductor film is described. According to an embodiment of the present invention, a hard mask material is formed on a silicon film having a global crystal orientation wherein the semiconductor film has a first crystal plane and second crystal plane, wherein the first crystal plane is denser than the second crystal plane and wherein the hard mask is formed on the second crystal plane. Next, the hard mask and semiconductor film are patterned into a hard mask covered semiconductor structure. The hard mask covered semiconductor structured is then exposed to a wet etch process which has sufficient chemical strength to etch the second crystal plane but insufficient chemical strength to etch the first crystal plane.
摘要:
A field-effect transistor for a narrow-body, multiple-gate transistor such as a FinFET, tri-gate or Ω-FET is described. The corners of the channel region disposed beneath the gate are rounded n, for instance, oxidation steps, to reduce the comer effect associated with conduction initiating in the corners of the channel region.