In a plasma processing method for plasma etching a silicon film or polysilicon film containing boron, the polysilicon film containing boron is etched by using a mixed gas of a halogen gas, a fluorine-containing gas, and a boron trichloride gas. According to plasma processing method, it is possible to improve the etching rate and reduce etching defects when plasma etching a silicon film or polysilicon film containing boron.

A FinFET structure with a gate structure having two notch features therein and a method of forming the same is disclosed. The FinFET notch features ensure that sufficient spacing is provided between the gate structure and source/drain regions of the FinFET to avoid inadvertent shorting of the gate structure to the source/drain regions. Gate structures of different sizes (e.g., different gate widths) and of different pattern densities can be provided on a same substrate and avoid inadvertent of shorting the gate to the source/drain regions through application of the notched features.

A method for selectively etching layers of a first material with respect to layers of a second material in a stack is provided. The layers of the first material are partially etched with respect to the layers of the second material. A deposition layer is selectively deposited on the stack, wherein portions of the deposition layer covering the layers of the second material are thicker than portions covering the layers of the first material, the selective depositing comprising providing a first reactant, purging some of the first reactant, wherein some undeposited first reactant is not purged, and providing a second reactant, wherein the undeposited first reactant combines with the second reactant and selectively deposits on the layers of the second material with respect to the layers of the first material. The layers of the first material are selectively etched with respect to the layers of the second material.

Exemplary methods of semiconductor processing may include etching one or more features partially through a stack of layers formed on a substrate. The methods may include halting the etching prior to penetrating fully through the stack of layers formed on the substrate. The methods may include forming a layer of carbon-containing material along the stack of layers on the substrate. The layer of carbon-containing material may include a metal. The methods may include etching the one or more features fully through the stack of layers on the substrate.

A substrate processing method includes: providing a substrate including a silicon-containing film in a chamber; supplying a processing gas including HF gas into the chamber; etching the silicon-containing film with plasma generated from the processing gas, thereby forming a recess in the silicon-containing film; and controlling a partial pressure of the HF gas to decrease the partial pressure of the HF gas with an increase of an aspect ratio of the recess.

A method includes forming a dummy gate electrode on a semiconductor region, forming a first gate spacer on a sidewall of the dummy gate electrode, and removing an upper portion of the first gate spacer to form a recess, wherein a lower portion of the first gate spacer remains, filling the recess with a second gate spacer, removing the dummy gate electrode to form a trench, and forming a replacement gate electrode in the trench.

The present disclosure describes a semiconductor device with modulated gate structures and a method for forming the same. The method includes forming a fin structure, depositing a polysilicon layer over the fin structure, and forming a photoresist mask layer on the polysilicon layer. The method further includes etching, with a first etching condition, the polysilicon layer not covered by the photoresist mask layer and above a top surface of the fin structure. The method further includes etching, with a second etching condition, the polysilicon layer not covered by the photoresist mask layer and below the top surface of the fin structure, where the etched polysilicon layer below the top surface of the fin structure is narrower than the etched polysilicon layer above the top surface of the fin structure. The method further includes removing the etched polysilicon layer to form a space and forming a gate structure in the space.

Various embodiments of the present application are directed towards a method for forming a semiconductor-on-insulator (SOI) substrate with a thick device layer and a thick insulator layer. In some embodiments, the method includes forming an insulator layer covering a handle substrate, and epitaxially forming a device layer on a sacrificial substrate. The sacrificial substrate is bonded to a handle substrate, such that the device layer and the insulator layer are between the sacrificial and handle substrates, and the sacrificial substrate is removed. The removal includes performing an etch into the sacrificial substrate until the device layer is reached. Because the device layer is formed by epitaxy and transferred to the handle substrate, the device layer may be formed with a large thickness. Further, because the epitaxy is not affected by the thickness of the insulator layer, the insulator layer may be formed with a large thickness.

A method includes providing a structure having a substrate, semiconductor fins, and an isolation structure between adjacent semiconductor fins; forming a first gate structure engaging the semiconductor fins; depositing an inter-layer dielectric layer over the semiconductor fins and the first gate structure; removing the first gate structure, resulting in a first trench; depositing a second gate structure into the first trench, wherein the second gate structure includes a dielectric layer and a conductive layer; forming one or more mask layers over the second gate structure; patterning the one or more mask layers to have an opening exposing a portion of the second gate structure between two adjacent semiconductor fins; and etching the second gate structure through the opening to produce a second trench having tapered sidewalls, wherein the second trench is wider at top than at bottom.

An etching method in accordance with the present disclosure includes providing a substrate, which includes a silicon-containing film, in a chamber; and etching the silicon-containing film with a chemical species in plasma generated from a process gas supplied in the chamber. The process gas includes a phosphorus gas component and a fluorine gas component.