摘要:
A metal gate transistor may include a metal layer over a high dielectric constant dielectric layer. The dielectric layer abstracts electronegativity from said metal layer, altering its workfunction. The workfunction of the metal layer may be set to compensate for the dielectric layer abstraction.
摘要:
A method for making a semiconductor device is described. That method comprises modifying a first surface, and forming a high-k gate dielectric layer on an unmodified second surface.
摘要:
Semiconductor integrated circuit structures, such as stacks containing metal layers, may be etched with a modified viscosity etchant. An increased viscosity etchant, for example, may reduce undercutting when a metal film is being etched.
摘要:
A nanotube transistor, such as a carbon nanotube transistor, may be formed with a top gate electrode and a spaced source and drain. Conduction along the transistor from source to drain is controlled by the gate electrode. Underlying the gate electrode are at least two nanotubes. In some embodiments, the substrate may act as a back gate.
摘要:
In a metal gate replacement process, a stack of at least two polysilicon layers or other materials may be formed. Sidewall spacers may be formed on the stack. The stack may then be planarized. Next, the upper layer of the stack may be selectively removed. Then, the exposed portions of the sidewall spacers may be selectively removed. Finally, the lower portion of the stack may be removed to form a T-shaped trench which may be filled with the metal replacement.
摘要:
A wafer may be rotated while etching to displace bubbles that may form, for example, from a reaction between silicon and water. As a result, a hydrophobic layer, which would otherwise be created by the bubbles, cannot form, resulting in a more uniform etch rate in some embodiments.
摘要:
A method for making a semiconductor device is described. That method comprises forming a sacrificial layer on a substrate, and forming a trench within the sacrificial layer. After forming a dummy gate electrode within the trench, a hard mask is formed on the dummy gate electrode and within the trench.
摘要:
A method for making a semiconductor device is described. That method comprises forming a polysilicon layer on a dielectric layer, which is formed on a substrate. The polysilicon layer is etched to generate a patterned polysilicon layer with an upper surface that is wider than its lower surface. The method may be applied, when using a replacement gate process to make transistors that have metal gate electrodes.
摘要:
Increasing the number of successive pulses of oxidant before applying pulses of metal precursor may improve the quality of the resulting metal or rare earth oxide films. These metal or rare earth oxide films may be utilized for high dielectric constant gate dielectrics. In addition, pulsing the oxidant during the pre-stabilization period may be advantageous. Also, using more pulses of oxidant than the pulses of precursor may reduce chlorine concentration in the resulting films.
摘要:
A contact architecture for nanoscale channel devices having contact structures coupling to and extending between source or drain regions of a device having a plurality of parallel semiconductor bodies. The contact structures being able to contact parallel semiconductor bodies having sub-lithographic pitch.