摘要:
A conductor-dielectric interconnect structure is fabricated by providing a structure comprising a dielectric layer having a patterned feature therein; depositing a plating seed layer on the dielectric layer in the patterned feature; depositing a sacrificial seed layer on the plating seed layer in the via; reducing the thickness of the sacrificial seed layer by reverse plating; and plating a conductive metal on the sacrificial seed layer in the patterned feature. Also provided is a dielectric layer having a via therein; a plating seed layer on the dielectric layer in the patterned feature; and a discontinuous sacrificial seed layer located in the patterned feature.
摘要:
A conductor-dielectric interconnect structure is fabricated by providing a structure comprising a dielectric layer having a patterned feature therein; depositing a plating seed layer on the dielectric layer in the patterned feature; depositing a sacrificial seed layer on the plating seed layer in the via; reducing the thickness of the sacrificial seed layer by reverse plating; and plating a conductive metal on the sacrificial seed layer in the patterned feature. Also provided is a dielectric layer having a via therein; a plating seed layer on the dielectric layer in the patterned feature; and a discontinuous sacrificial seed layer located in the patterned feature.
摘要:
A conductor-dielectric interconnect structure is fabricated by providing a structure comprising a dielectric layer having a patterned feature therein; depositing a plating seed layer on the dielectric layer in the patterned feature; depositing a sacrificial seed layer on the plating seed layer in the via; reducing the thickness of the sacrificial seed layer by reverse plating; and plating a conductive metal on the sacrificial seed layer in the patterned feature. Also provided is a dielectric layer having a via therein; a plating seed layer on the dielectric layer in the patterned feature; and a discontinuous sacrificial seed layer located in the patterned feature.
摘要:
Methods of forming an integrated circuit structure utilizing a selectively formed and at least partially oxidized metal cap over a gate, and associated structures. In one embodiment, a method includes providing a precursor structure including a transistor having a metal gate; forming an etch stop layer over an exposed portion of the metal gate; at least partially oxidizing the etch stop layer; and forming a dielectric layer over the at least partially oxidized etch stop layer.
摘要:
A stack of a first metal line and a first dielectric cap material portion is formed within a line trench of first dielectric material layer. A second dielectric material layer is formed thereafter. A line trench extending between the top surface and the bottom surface of the second dielectric material layer is patterned. A photoresist layer is applied over the second dielectric material layer and patterned with a via pattern. An underlying portion of the first dielectric cap material is removed by an etch selective to the dielectric materials of the first and second dielectric material layer to form a via cavity that is laterally confined along the widthwise direction of the line trench and along the widthwise direction of the first metal line. A dual damascene line and via structure is formed, which includes a via structure that is laterally confined along two independent horizontal directions.
摘要:
Embodiments of the present invention provide a structure. The structure includes a plurality of field-effect-transistors having gate stacks formed on top of a semiconductor substrate, the gate stacks having spacers formed at sidewalls thereof; and one or more conductive contacts formed directly on top of the semiconductor substrate and interconnecting at least one source/drain of one of the plurality of field-effect-transistors to at least one source/drain of another one of the plurality of field-effect-transistors, wherein the one or more conductive contacts is part of a low-profile local interconnect that has a height lower than a height of the gate stacks.
摘要:
In a replacement gate scheme, after formation of a gate dielectric layer, a work function material layer completely fills a narrow gate trench, while not filling a wide gate trench. A dielectric material layer is deposited and planarized over the work function material layer, and is subsequently recessed to form a dielectric material portion overlying a horizontal portion of the work function material layer within the wide gate trench. The work function material layer is recessed employing the dielectric material portion as a part of an etch mask to form work function material portions. A conductive material is deposited and planarized to form gate conductor portions, and a dielectric material is deposited and planarized to form gate cap dielectrics.
摘要:
Method of forming a semiconductor structure which includes forming first conductive spacers on a semiconductor substrate; forming second conductive spacers with respect to the first conductive spacers, at least one of the second conductive spacers adjacent to and in contact with each of the first conductive spacers to form combined conductive spacers; recessing the second conductive spacers with respect to the first conductive spacers so that the first conductive spacers extend beyond the second conductive spacers; depositing an ILD to cover the first and second spacers except for an exposed edge of the first conductive spacers; patterning the exposed edges of the first conductive spacers to recess the edges of the first conductive spacers in predetermined locations to form recesses with respect to the ILD; and filling the recesses with an insulating material to leave unrecessed edges of the first conductive spacers as vias to subsequent wiring features.
摘要:
Two substrates are brought together and placed in a plating bath. In one embodiment, a conductive material is plated in microscopic cavities present at the interface between a first metal pad and a second metal pad to form at least one interfacial plated metal liner portion that adheres to a surface of the first metal pad and a surface of the second metal pad. In another embodiment, at least one metal pad is recessed relative to a dielectric surface before being brought together. The two substrates are placed in a plating bath and a conductive material is plated in the cavity between the first metal pad and the second metal pad to form a contiguous plated metal liner layer that adheres to a surface of the first metal pad and a surface of the second metal pad.
摘要:
A hybrid interconnect structure containing copper regions that have different impurities levels within a same opening is provided. In one embodiment, the interconnect structure includes a patterned dielectric material having at least one opening located therein. A dual material liner is located at least on sidewalls of the patterned dielectric material within the at least one opening. The structure further includes a first copper region having a first impurity level located within a bottom region of the at least one opening and a second copper region having a second impurity level located within a top region of the at least one opening and atop the first copper region. In accordance with the present disclosure, the first impurity level of the first copper region is different from the second impurity level of the second copper region. The copper regions containing the different impurities levels can be achieved utilizing a combination of physical vapor deposition of a copper region having a low impurity level (i.e., less than 20 ppm) and copper reflow, with electroplating another copper region having a high impurity level (i.e., 100 ppm or greater).