Abstract: A method for forming a semiconductor device structure is provided. The method includes forming a fin structure over a semiconductor substrate and forming a gate stack over the fin structure. The method also includes forming an epitaxial structure over the fin structure, and the epitaxial structure is adjacent to the gate stack. The method further includes forming a dielectric layer over the epitaxial structure and forming an opening in the dielectric layer to expose the epitaxial structure. In addition, the method includes applying a metal-containing material on the epitaxial structure while the epitaxial structure is heated so that a portion of the epitaxial structure is transformed to form a metal-semiconductor compound region.
Abstract: A semiconductor device includes a semiconductor substrate, an epitaxial structure, a silicide structure, a conductive structure, and a protection segment. The epitaxial structure is disposed in the semiconductor substrate. The silicide structure is disposed in the epitaxial structure. The conductive structure is disposed over the silicide structure and is electrically connected to the silicide structure. The protection segment is made of metal nitride, is disposed over the silicide structure, and is disposed between the silicide structure and the conductive structure.
Abstract: A semiconductor device includes a substrate, a source/drain region disposed in the substrate, a silicide structure disposed on the source/drain region, a first dielectric layer disposed over the substrate, a conductive contact disposed in the first dielectric layer and over the silicide structure, a second dielectric layer disposed over the first dielectric layer, a via contact disposed in the second dielectric layer and connected to the conductive contact, and a first metal surrounding the via contact.
Abstract: A source/drain component is disposed over an active region and surrounded by a dielectric material. A source/drain contact is disposed over the source/drain component. The source/drain contact includes a conductive capping layer and a conductive material having a different material composition than the conductive capping layer. The conductive material has a recessed bottom surface that is in direct contact with the conductive capping layer. A source/drain via is disposed over the source/drain contact. The source/drain via and the conductive material have different material compositions. The conductive capping layer contains tungsten, the conductive material contains molybdenum, and the source/drain via contains tungsten.
Type:
Application
Filed:
March 28, 2023
Publication date:
January 18, 2024
Inventors:
Cheng-Wei Chang, Chien Chang, Kan-Ju Lin, Harry Chien, Shuen-Shin Liang, Chia-Hung Chu, Sung-Li Wang, Shahaji B. More, Yueh-Ching Pai
Abstract: A titanium precursor is used to selectively form a titanium silicide (TiSix) layer in a semiconductor device. A plasma-based deposition operation is performed in which the titanium precursor is provided into an opening, and a reactant gas and a plasma are used to cause silicon to diffuse to a top surface of a transistor structure. The diffusion of silicon results in the formation of a silicon-rich surface of the transistor structure, which increases the selectivity of the titanium silicide formation relative to other materials of the semiconductor device. The titanium precursor reacts with the silicon-rich surface to form the titanium silicide layer. The selective titanium silicide layer formation results in the formation of a titanium silicon nitride (TiSixNy) on the sidewalls in the opening, which enables a conductive structure such as a metal source/drain contact to be formed in the opening without the addition of another barrier layer.