摘要:
A method for making a transistor 20 that includes using a transition metal nitride layer 200 and/or a SOG layer 220 to protect the source/drain regions 60 from silicidation during the silicidation of the gate electrode 90. The SOG layer 210 is planarized to expose the transition metal nitride layer 200 or the gate electrode 93 before the gate silicidation process. If a transition metal nitride layer 200 is used, then it is removed from the top of the gate electrode 93 before the full silicidation of the gate electrode 90.
摘要:
A method for making a transistor 20 that includes using a transition metal nitride layer 200 and/or a SOG layer 220 to protect the source/drain regions 60 from silicidation during the silicidation of the gate electrode 90. The SOG layer 210 is planarized to expose the transition metal nitride layer 200 or the gate electrode 93 before the gate silicidation process. If a transition metal nitride layer 200 is used, then it is removed from the top of the gate electrode 93 before the full silicidation of the gate electrode 90.
摘要:
The present invention provides a semiconductor device, a method of manufacture therefor, and a method for manufacturing an integrated circuit. The semiconductor device (100), among other possible elements, includes a silicided gate electrode (150) located over a substrate (110), the silicided gate electrode (150) having gate sidewall spacers (160) located on sidewalls thereof. The semiconductor device (100) further includes source/drain regions (170) located in the substrate (110) proximate the silicided gate electrode (150), and silicided source/drain regions (180) located in the source/drain regions (170) and at least partially under the gate sidewall spacers (160).
摘要:
The present invention provides a method for manufacturing a semiconductor device and a method for manufacturing an integrated circuit including the semiconductor device. The method for manufacturing the semiconductor device, among other possible steps, includes forming a polysilicon gate electrode (250) over a substrate (210) and forming source/drain regions (610) in the substrate (210) proximate the polysilicon gate electrode (250). The method further includes forming a protective layer (710) over the source/drain regions (610) and the polysilicon gate electrode (250), then removing the protective layer (710) from over a top surface of the polysilicon gate electrode (250) while leaving the protective layer (710) over the source/drain regions (250). After the protective layer (710) has been removed from over the top surface of the polysilicon gate electrode (250), the polysilicon gate electrode (250) is silicided to form a silicided gate electrode (1310). The protective layer (710) is also removed from over the source/drain regions (610) and source/drain contact regions (1610) are formed.
摘要:
The present invention provides a semiconductor device, a method of manufacture therefor, and a method for manufacturing an integrated circuit. The semiconductor device (100), among other possible elements, includes a silicided gate electrode (150) located over a substrate (110), the silicided gate electrode (150) having gate sidewall spacers (160) located on sidewalls thereof. The semiconductor device (100) further includes source/drain regions (170) located in the substrate (110) proximate the silicided gate electrode (150), and silicided source/drain regions (180) located in the source/drain regions (170) and at least partially under the gate sidewall spacers (160).
摘要:
A method for making a transistor 20 that includes using a transition metal nitride layer 200 and/or a SOG layer 220 to protect the source/drain regions 60 from silicidation during the silicidation of the gate electrode 90. The SOG layer 210 is planarized to expose the transition metal nitride layer 200 or the gate electrode 93 before the gate silicidation process. If a transition metal nitride layer 200 is used, then it is removed from the top of the gate electrode 93 before the full silicidation of the gate electrode 90.
摘要:
The present invention provides a method for manufacturing a semiconductor device and a method for manufacturing an integrated circuit including the semiconductor device. The method for manufacturing the semiconductor device (100), among other possible steps, includes forming a polysilicon gate electrode over a substrate (110) and forming source/drain regions (170) in the substrate (110) proximate the polysilicon gate electrode. The method further includes forming a blocking layer (180) over the source/drain regions (170), the blocking layer (180) comprising a metal silicide, and siliciding the polysilicon gate electrode to form a silicided gate electrode (150).
摘要:
The present invention provides a semiconductor device, a method of manufacture therefor, and a method for manufacturing an integrated circuit. The semiconductor device (100), among other possible elements, includes a silicided gate electrode (150) located over a substrate (110), the silicided gate electrode (150) having gate sidewall spacers (160) located on sidewalls thereof. The semiconductor device (100) further includes source/drain regions (170) located in the substrate (110) proximate the silicided gate electrode (150), and silicided source/drain regions (180) located in the source/drain regions (170) and at least partially under the gate sidewall spacers (160).
摘要:
A method for making a transistor 20 that includes using a transition metal nitride layer 200 and/or a SOG layer 220 to protect the source/drain regions 60 from silicidation during the silicidation of the gate electrode 90. The SOG layer 210 is planarized to expose the transition metal nitride layer 200 or the gate electrode 93 before the gate silicidation process. If a transition metal nitride layer 200 is used, then it is removed from the top of the gate electrode 93 before the full silicidation of the gate electrode 90.
摘要:
A method for making a transistor 20 that includes using a transition metal nitride layer 200 and/or a SOG layer 220 to protect the source/drain regions 60 from silicidation during the silicidation of the gate electrode 90. The SOG layer 210 is planarized to expose the transition metal nitride layer 200 or the gate electrode 93 before the gate silicidation process. If a transition metal nitride layer 200 is used, then it is removed from the top of the gate electrode 93 before the full silicidation of the gate electrode 90.