Abstract: Provided is a chemical-mechanical polishing apparatus, a retaining ring for a chemical-mechanical polishing apparatus, and a chemical-mechanical polishing method. A chemical-mechanical polishing apparatus includes a polishing pad; a polishing head configured to receive a wafer and to hold the wafer against the polishing pad; and a retaining ring configured to engage with the polishing head, wherein the retaining ring is formed with channels configured for flowing a slurry in a flow direction from outside the retaining ring to inside the retaining ring, wherein the channels have a cross-sectional flow area that decreases in the flow direction.

Abstract: Provided are a tool and a method for processing a semiconductor wafer. A processing method includes supporting a semiconductor wafer continuously along a periphery of the semiconductor wafer with an electrically grounded conductive member; and spinning the semiconductor wafer, wherein surface charges induced during spinning are dissipated by movement of electrons from the semiconductor wafer to the electrically grounded conductive member at the periphery of the semiconductor wafer.

Abstract: A semiconductor structure includes: a first conductive layer arranged over a substrate; a dielectric layer arranged over the first conductive layer; a second conductive layer arranged within the dielectric layer and electrically connected to the first conductive layer, the second conductive layer including a sidewall distant from the dielectric layer by a width; and a first blocking layer over a surface of the first conductive layer between the second conducive layer and the dielectric layer. The first blocking layer includes at least one element of a precipitant.

Abstract: Embodiments of the present disclosure relate to a CMP tool and methods for planarization a substrate. Particularly, embodiments of the present disclosure relate to an in-situ defect data analyzer to identify CMP induced defects during polishing processing and cleaning processing performed in the CMP tool. In some embodiments, the CMP tool includes an AI (artificial intelligence)-assisted defect database. The defect database may be used to identify and classify CMP related defects, such as scratch, fall-on slurry residuals, during polishing or cleaning process. As a result, defect warning cycle time for a CMP process is improved significantly.

Abstract: A slurry composition, a semiconductor structure and a method for forming a semiconductor structure are provided. The slurry composition includes a slurry and a precipitant dispensed in the slurry. The semiconductor structure comprises a blocking layer including at least one element of the precipitant. The method includes using the slurry composition with the precipitant to polish a conductive layer and causing the precipitant to flow into the gap.

Abstract: An embodiment is a polishing pad including a top pad and a sub pad that is below and contacting the top pad. The top pad includes top grooves along a top surface and microchannels extending from the top grooves to a bottom surface of the top pad. The sub pad includes sub grooves along a top surface of the sub pad.

Abstract: In-situ defect count detection in post chemical mechanical polishing (post-CMP) is provided. Post-CMP is performed, in-situ and according to a recipe, on a surface of a semiconductor wafer within a post-CMP chamber. A light signal is scanned over a target area of the surface of the semiconductor wafer and a reflected light signal reflected from the target area is detected. A defect count of defects present in the target area is determined based on the reflected light signal reflected from the target area.

Abstract: A tool and methods of removing films from bevel regions of wafers are disclosed. The bevel film removal tool includes an inner motor nested within an outer motor and a bevel brush secured to the outer motor. The bevel brush is adjustable radially outward to allow the wafer to be inserted in the bevel brush and to be secured to the inner motor. The bevel brush is adjustable radially inward to engage one or more sections of the bevel brush and to bring the bevel brush in contact with a bevel region of the wafer. Once engaged, a solution may be dispensed at the engaged sections of the bevel brush and the inner motor and the outer motor may be rotated such that the bevel brush is rotated against the wafer such that the bevel films of the wafer are both chemically and mechanically removed.

Abstract: A slurry composition, a semiconductor structure and a method for forming a semiconductor structure are provided. The slurry composition includes a slurry and a precipitant dispensed in the slurry. The semiconductor structure comprises a blocking layer including at least one element of the precipitant. The method includes using the slurry composition with the precipitant to polish a conductive layer and causing the precipitant to flow into the gap.

Abstract: A tool and methods of removing films from bevel regions of wafers are disclosed. The bevel film removal tool includes an inner motor nested within an outer motor and a bevel brush secured to the outer motor. The bevel brush is adjustable radially outward to allow the wafer to be inserted in the bevel brush and to be secured to the inner motor. The bevel brush is adjustable radially inward to engage one or more sections of the bevel brush and to bring the bevel brush in contact with a bevel region of the wafer. Once engaged, a solution may be dispensed at the engaged sections of the bevel brush and the inner motor and the outer motor may be rotated such that the bevel brush is rotated against the wafer such that the bevel films of the wafer are both chemically and mechanically removed.

Abstract: A tool and methods of removing films from bevel regions of wafers are disclosed. The bevel film removal tool includes an inner motor nested within an outer motor and a bevel brush secured to the outer motor. The bevel brush is adjustable radially outward to allow the wafer to be inserted in the bevel brush and to be secured to the inner motor. The bevel brush is adjustable radially inward to engage one or more sections of the bevel brush and to bring the bevel brush in contact with a bevel region of the wafer. Once engaged, a solution may be dispensed at the engaged sections of the bevel brush and the inner motor and the outer motor may be rotated such that the bevel brush is rotated against the wafer such that the bevel films of the wafer are both chemically and mechanically removed.

Abstract: An embodiment is a polishing pad including a top pad and a sub pad that is below and contacting the top pad. The top pad includes top grooves along a top surface and microchannels extending from the top grooves to a bottom surface of the top pad. The sub pad includes sub grooves along a top surface of the sub pad.