Abstract:
Integrated circuit devices include a substrate including first and second fin-type active regions and first and second gate structures. The first gate structure includes first gate insulating layer on the first fin-type active region to cover upper surface and both side surfaces of the first fin-type active region, first gate electrode on the first gate insulating layer and has first thickness in first direction perpendicular to upper surface of the substrate, and second gate electrode on the first gate electrode. The second gate structure includes second gate insulating layer on the second fin-type active region to cover upper surface and both side surfaces of the second fin-type active region, third gate insulating layer on the second gate insulating layer, third gate electrode on the third gate insulating layer and has second thickness different from the first thickness in the first direction, and fourth gate electrode on the third gate electrode.
Abstract:
Integrated circuit devices include a substrate including first and second fin-type active regions and first and second gate structures. The first gate structure includes first gate insulating layer on the first fin-type active region to cover upper surface and both side surfaces of the first fin-type active region, first gate electrode on the first gate insulating layer and has first thickness in first direction perpendicular to upper surface of the substrate, and second gate electrode on the first gate electrode. The second gate structure includes second gate insulating layer on the second fin-type active region to cover upper surface and both side surfaces of the second fin-type active region, third gate insulating layer on the second gate insulating layer, third gate electrode on the third gate insulating layer and has second thickness different from the first thickness in the first direction, and fourth gate electrode on the third gate electrode.
Abstract:
A semiconductor device includes an active region in a substrate, at least one nano-sheet on the substrate and spaced apart from a top surface of the active region, a gate above or below the nano-sheet, a gate insulating layer between the at least one nano-sheet and the gate, and source/drain regions on the active region at both sides of the at least one nano-sheet. The at least one nano-sheet includes a channel region; a gate disposed above or below the nano-sheet and including a single metal layer having different compositions of metal atoms of a surface and an inside thereof; a gate insulating layer between the nano-sheet and the gate; and source/drain regions disposed in the active region of both sides of the at least one nano-sheet.
Abstract:
Provided are a semiconductor device in which a multi-threshold voltage is embodied by controlling a work function, and a method of manufacturing the same. The device includes a semiconductor substrate including a first region and a second region, a first active region formed in an upper portion of the first region of the semiconductor substrate, a second active region formed in an upper portion of the second region of the semiconductor substrate, a first gate structure formed on the semiconductor substrate across the first active region, the first gate structure including an interfacial layer, a high-k dielectric layer, a capping metal layer, and a work function metal layer that are stacked sequentially, and a second gate structure formed on the semiconductor substrate across the second active region, the second gate structure including the interfacial layer, the high-k dielectric layer, the capping metal layer, a dielectric layer, and the work function metal layer that are stacked sequentially.
Abstract:
A method of forming a thin film includes forming an interface layer stack on a semiconductor substrate. Forming the interface layer stack may include performing a first surface treatment on the semiconductor substrate under a reducing atmosphere. Forming the interface layer stack may include performing a second surface treatment on the semiconductor substrate. The first surface treatment may be performed under a reducing atmosphere and the second surface treatment may be performed under a nitridation atmosphere. The first surface treatment may include forming a lower interface layer on a surface of the semiconductor substrate and the second surface treatment may include forming an upper interface layer. The first surface treatment may include selectively removing at least one oxide material from a native oxide film on the semiconductor substrate.