A method for preparing a semiconductor device includes the following operations. A semiconductor substrate is provided, and a gate dielectric layer, a first conductive layer, and a support layer with a through hole are sequentially formed on the semiconductor substrate. A barrier layer and a second conductive layer are formed in the through hole. The support layer and a part of the first conductive layer located below the support layer are removed to form a primary gate pattern and expose the gate dielectric layer. A gate sidewall protective layer is formed on a sidewall of the primary gate pattern. An insulating layer is formed on a top of the primary gate pattern, a surface of the gate sidewall protective layer and a surface of the exposed part of the gate dielectric layer. A part of the insulating layer and a part of the gate dielectric layer are removed.

A method for manufacturing a semiconductor structure includes the following operations. A first conductive layer, a second conductive layer and a passivation layer are successively formed on a semiconductor substrate. The passivation layer and the second conductive layer are patterned to form a primary gate pattern. A portion of the first conductive layer that is not covered by the primary gate pattern, is exposed. The primary gate pattern is subjected with plasma treatment to form a first protective layer. A dielectric layer is formed. The exposed portion of the first conductive layer is removed to retain a portion of the first conductive layer covered by the primary gate pattern. A second protective layer is formed on a side wall of the exposed portion of the first conductive layer.

A semiconductor device includes a gate structure on a substrate, in which the gate structure includes a silicon layer on the substrate, a titanium nitride (TiN) layer on the silicon layer, a titanium (Ti) layer between the TiN layer and the silicon layer, a metal silicide between the Ti layer and the silicon layer, a titanium silicon nitride (TiSiN) layer on the TiN layer, and a conductive layer on the TiSiN layer.

A method for fabricating a semiconductor device may include: forming a gate dielectric material over a substrate; sequentially forming a carbon-undoped polysilicon layer and a carbon-doped polysilicon layer over the gate dielectric material; doping the carbon-doped polysilicon layer with a dopant; forming a columnar crystalline polysilicon layer over the carbon-doped polysilicon layer doped with the dopant; and performing annealing to activate the dopant.

A method includes depositing a gate dielectric layer; depositing a work-function (WF) metal layer over the gate dielectric layer; and etching the WF metal layer through an etch mask, thereby removing the first portion of the WF metal layer while keeping the second portion of the WF metal layer, wherein a sidewall of the second portion of the WF metal layer is exposed. The method further includes forming a first barrier on the sidewall of the second portion of the WF metal layer and depositing a gate metal layer. A first portion of the gate metal layer is deposited over the gate dielectric layer, a second portion of the gate metal layer is deposited over the first barrier and the second portion of the WF metal layer. The first barrier is disposed between the first portion of the gate metal layer and the second portion of the WF metal layer.

A semiconductor structure includes a capacitor structure comprising an active region comprising opposing field edges parallel to a first horizontal direction and a gate region comprising opposing gate edges parallel to a second horizontal direction transverse to the first horizontal direction. The semiconductor structure also comprises a first dielectric material adjacent at least one of the opposing field edges or the opposing gate edges and a second dielectric material adjacent the active area and abutting portions of the first dielectric material. A height of the second dielectric material in a vertical direction may be less than the height of the first dielectric material. Semiconductor devices and related methods are also disclosed.

A method for fabricating semiconductor device includes the steps of first forming a silicon layer on a substrate and then forming a metal silicon nitride layer on the silicon layer, in which the metal silicon nitride layer includes a bottom portion, a middle portion, and a top portion and a concentration of silicon in the top portion is greater than a concentration of silicon in the middle portion. Next, a conductive layer is formed on the metal silicon nitride layer and the conductive layer, the metal silicon nitride layer, and the silicon layer are patterned to form a gate structure.

A method for manufacturing a semiconductor structure and the semiconductor structure are provided. The method for manufacturing a semiconductor structure includes: providing an activated region; forming an initial gate located on the activated region; forming a first mask layer on a top surface of the initial gate, in which a first opening penetrating the first mask layer is provided in the first mask layer, and the first opening at least has opposite two sides extending along a first direction; forming sidewall layers located at least on sidewalls of both sides of the first opening extending in the first direction; removing the first mask layer; patterning the initial gate with the sidewall layers on both sides of the first opening as a mask to form gates.

The present disclosure describes a semiconductor device that includes a substrate and a first transistor on the substrate. The first transistor includes a first gate structure and the first gate structure includes a gate dielectric layer and a first work function layer on the gate dielectric layer. The first gate structure also includes a capping layer on the first work function layer. The semiconductor device also includes a second transistor on the substrate, in which the second transistor includes a second gate structure. The second gate structure includes the gate dielectric layer and a second work function layer on the gate dielectric layer. The second gate structure also includes the first work function layer on the second work function layer and the silicon capping layer on the first work function layer.

A semiconductor structure includes a capacitor structure comprising an active region comprising opposing field edges parallel to a first horizontal direction and a gate region comprising opposing gate edges parallel to a second horizontal direction transverse to the first horizontal direction. The semiconductor structure also comprises a first dielectric material adjacent at least one of the opposing field edges or the opposing gate edges and a second dielectric material adjacent the active area and abutting portions of the first dielectric material. A height of the second dielectric material in a vertical direction may be less than the height of the first dielectric material. Semiconductor devices and related methods are also disclosed.