摘要:
A method for making a semiconductor device is described. That method comprises forming a hard mask and an etch stop layer on a patterned sacrificial gate electrode layer. After first and second spacers are formed on opposite sides of that patterned sacrificial layer, the patterned sacrificial layer is removed to generate a trench that is positioned between the first and second spacers. At least part of the trench is filled with a metal layer.
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 complementary metal oxide semiconductor integrated circuit may be formed with NMOS and PMOS transistors that have high dielectric constant gate dielectric material over a semiconductor substrate. A metal barrier layer may be formed over the gate dielectric. A workfunction setting metal layer is formed over the metal barrier layer and a cap metal layer is formed over the workfunction setting metal layer.
摘要:
A complementary metal oxide semiconductor integrated circuit may be formed with a PMOS device formed using a replacement metal gate and a raised source drain. The raised source drain may be formed of epitaxially deposited silicon germanium material that is doped p-type. The replacement metal gate process results in a metal gate electrode and may involve the-removal of a nitride etch stop layer.
摘要:
Replacement metal gates may be formed by removing a polysilicon layer from a gate structure. The gate structure may be formed by patterning the polysilicon layer and depositing a spacer layer over the gate structure such that the spacer layer has a first polish rate. The spacer layer is then etched to form a sidewall spacer. An interlayer dielectric is applied over the gate structure with the sidewall spacer. The interlayer dielectric has a second polish rate higher than the first polish rate. In one embodiment, the interlayer dielectric has a lower polish rate than that of oxide.
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 metal layer is formed on a dielectric layer, which is formed on a substrate. After forming a masking layer on the metal layer, the exposed sides of the dielectric layer are covered with a polymer diffusion barrier.
摘要:
A method for making a semiconductor device is described. That method comprises forming on a substrate a dielectric layer and a sacrificial structure that comprises a first layer and a second layer, such that the second layer is formed on the first layer and is wider than the first layer. After the sacrificial structure is removed to generate a trench, a metal gate electrode is formed within the trench.
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 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.