摘要:
A method for conditioning an Ecmp pad is provided. In one embodiment, a method for electrochemically processing a substrate includes the steps of providing an electrical bias voltage between the top surface of the pad assembly and an electrode, and electrochemically removing contaminants from the top surface of the pad.
摘要:
A method for electrochemical mechanical polishing (ECMP) is disclosed. The polishing rate and surface finish of the layer on the wafer are improved by controlling the surface speed of both the platen and head, controlling the current applied to the pad, and preselecting the density of the perforations on the fully conductive polishing pad. ECMP produces much higher removal rates, good surface finishes, and good planarization efficiency at a lower down force. Generally, increasing the surface speed of both the platen and the head will increase the surface smoothness. Also, increasing the current density on the wafer will increase the surface smoothness. There is virtually no difference in the smoothness of the wafer surface between the center, middle, and edge of the wafer. For copper, removal rates of 10,000 Å/min and greater can be achieved.
摘要:
A method for conditioning an Ecmp pad is provided. In one embodiment, a method for electrochemically processing a substrate includes the steps of providing an electrical bias voltage between the top surface of the pad assembly and an electrode, and electrochemically removing contaminants from the top surface of the pad.
摘要:
A method for electrochemically processing a substrate is provided. In one embodiment, the method includes performing a conditioning procedure on a processing pad having a plurality of process cells, energizing the process cells by applying a voltage to the conditioned processing pad, placing a substrate having at least a conductive layer disposed thereon on the energized pad, and removing at least a portion of the conductive layer in the energized process cells. In another embodiment, a method for polishing a substrate includes placing an unused conductive pad having a plurality of process cells on a platen of a processing system, breaking in the pad on the platen, energizing the process cells by applying a voltage to the broken-in pad, placing a substrate having at least a conductive layer disposed thereon on the energized pad, and removing at least a portion of the conductive layer in the energized cells.
摘要:
Compositions and methods for processing a substrate having a conductive material layer disposed thereon are provided. In one embodiment, a composition for processing a substrate having a conductive material layer disposed thereon is provided which composition includes an acid based electrolyte, a chelating agent, a corrosion inhibitor, a passivating polymeric material, a pH adjusting agent, a leveler a solvent, and a pH between about 3 and about 10. The composition is used in a method to form a passivation layer on the conductive material layer, abrading the passivation layer to expose a portion of the conductive material layer, applying a bias to the substrate, and removing the conductive material layer.
摘要:
An article of manufacture and apparatus are provided for processing a substrate surface. In one aspect, an article of manufacture is provided for polishing a substrate including polishing article comprising a body having at least a partially conductive polishing surface. An electrode is disposed below the polishing surface having a dielectric material therebetween. A plurality of apertures may be formed in the polishing surface and the dielectric material to at least partially expose the electrode to the polishing surface. A membrane may be disposed between the electrode and the polishing surface that is permeable to ions and current to promote continuity between the electrode and the polishing surface.
摘要:
Compositions and methods for processing a substrate having a conductive material layer disposed thereon are provided. In one embodiment, a composition for processing a substrate having a conductive material layer disposed thereon is provided which composition includes an acid based electrolyte, a chelating agent, a corrosion inhibitor, a passivating polymeric material, a pH adjusting agent, a solvent, and a pH between about 3 and about 10. The composition is used in a method to form a passivation layer on the conductive material layer, abrading the passivation layer to expose a portion of the conductive material layer, applying a bias to the substrate, and removing the conductive material layer.
摘要:
A method of conditioning processing pads increases the removal rate of conductive material from a substrate surface during polishing. In this method, the direction of rotation of the processing pad relative to the conditioning disc during conditioning is opposite the direction of rotation of the processing pad relative to the substrate during polishing.
摘要:
The embodiments of the invention generally relate to a method and apparatus for processing a substrate where reduced defect formation is desired. Embodiments of the invention may be beneficially practiced in chemical mechanical polishing and electrochemical mechanical polishing processes, among other processes where reduction in defect formation due to foam formation is desired. In one embodiment, a processing system for planarizing a substrate is provided that includes a platen, a pad disposed on the platen, a carrier head configured to retain the substrate against the pad while contacting an electronically conductive processing solution; and a foam removal assembly. The foam removal assembly is configured to remove foam from the electrically conductive processing solution, wherein a gap exists between a surface of the electrically conductive processing solution and a bottom edge of the foam removal assembly.
摘要:
An article of manufacture and apparatus are provided for processing a substrate surface. In one aspect, an article of manufacture is provided for polishing a substrate including polishing article comprising a body having at least a partially conductive polishing surface. An electrode is disposed below the polishing surface having a dielectric material therebetween. A plurality of apertures may be formed in the polishing surface and the dielectric material to at least partially expose the electrode to the polishing surface. A membrane may be disposed between the electrode and the polishing surface that is permeable to ions and current to promote continuity between the electrode and the polishing surface.