摘要:
A method for removing material from the surface of a semiconductor wafer with a chemical mechanical polishing process is described. The method uses a polishing pad on which a line-pattern of grooves is formed. The pattern comprises orderly spaced grooved-area and area without grooves. The method combines information of the surface topography of the wafer, the nature of the material to be removed, and the available groove pattern on the surface of the polishing pad to generate a process recipe in which the resident time of portions of the semiconductor wafer spends at the grooved and un-grooved areas of the polishing pad during the chemical mechanical polishing process is pre-determined.
摘要:
A method for removing material from the surface of a semiconductor wafer with a chemical mechanical polishing process is described. The method uses a polishing pad on which a line-pattern of grooves is formed. The pattern comprises orderly spaced grooved-area and area without grooves. The method combines information of the surface topography of the wafer, the nature of the material to be removed, and the available groove pattern on the surface of the polishing pad to generate a process recipe in which the resident time of portions of the semiconductor wafer spends at the grooved and un-grooved areas of the polishing pad during the chemical mechanical polishing process is pre-determined.
摘要:
A method for removing material from the surface of a semiconductor wafer with a chemical mechanical polishing process is described. The method uses a polishing pad on which a line-pattern of grooves is formed. The pattern comprises orderly spaced grooved-area and area without grooves. The method combines information of the surface topography of the wafer, the nature of the material to be removed, and the available groove pattern on the surface of the polishing pad to generate a process recipe in which the resident time of portions of the semiconductor wafer spends at the grooved and un-grooved areas of the polishing pad during the chemical mechanical polishing process is pre-determined.
摘要:
A system (500) for removing wafer edge residue from a target wafer (508) is disclosed. A wafer holding mechanism (502) holds and optionally rotates the target wafer (508). A solution dispenser (504) applies a residue remover solution (506) to an edge/beveled surface at an outer edge of the wafer (508) by directing the residue remover solution (506) to a target location on the wafer (508) causing the residue remover solution (506) to come in contact with the edge surface of the wafer (508). The residue remover solution (506) contains an etch component that etches semiconductor material from the edge surface of the wafer (508). As a result, underlying semiconductor material below strongly adhered residue is removed thereby dislodging the strongly adhered residue.
摘要:
A system (500) removes wafer edge residue from a target wafer (508). A wafer holding mechanism (502) holds and rotates the target wafer (508). A residue remover mechanism (504) mechanically interacts or abrades an edge surface of the target wafer (508) and removes strongly adhered residue from the edge surface of the target wafer (508). The residue remover mechanism (504) controls coverage of the mechanical interaction and magnitude of the mechanical interaction.
摘要:
A trench structure in a wafer of semiconductor material and the method of forming the trench structure are described. The trench structure is formed on a semiconductor wafer that has a top surface of slow oxidization rate—slower than that of other major crystallographic planes of the semiconductor material. The trench is etched into the semiconductor wafer. The trench has substantially vertical trench-sidewalls near the top surface, the vertical trench-sidewalls near the top surface containing crystallographic plane that oxidizes at a rate comparable to that of the top surface. An insulating layer is grown on the top surface and on the trench-sidewalls and on corners where sidewall surfaces approach the top surface, the insulating layer at the corners being substantially thicker than at the sidewall adjacent to the corners. The difference in the oxide thickness is due to the faster oxidizing planes exposed at the corners. Finally, the trench is filled with a dielectric material.
摘要:
The present invention provides a method for fabricating a dual gate semiconductor device. In one aspect, the method comprises forming a nitridated, high voltage gate dielectric layer over a semiconductor substrate, patterning a photoresist over the nitridated, high voltage gate dielectric layer to expose the nitridated, high voltage dielectric within a low voltage region wherein the patterning leaves an accelerant residue on the exposed nitridated, high voltage gate dielectric layer. The method further includes subjecting the exposed nitridated, high voltage dielectric to a plasma to remove the accelerant residue.
摘要:
The present invention provides a method for fabricating a dual gate semiconductor device. In one aspect, the method comprises forming a nitridated, high voltage gate dielectric layer over a semiconductor substrate, patterning a photoresist over the nitridated, high voltage gate dielectric layer to expose the nitridated, high voltage dielectric within a low voltage region, wherein the patterning leaves an accelerant residue on the exposed nitridated, high voltage gate dielectric layer, and subjecting the exposed nitridated, high voltage dielectric to a high vacuum to remove the accelerant residue.
摘要:
The present invention provides a method for improving a physical property of a substrate, a method for manufacturing an integrated circuit, and an integrated circuit manufactured using the aforementioned method. In one aspect of the invention, the method for improving a physical property of a substrate includes subjecting the substrate to effects of a plasma process 830, wherein the substrate has a physical property defect value associated therewith subsequent to the plasma process. The method further includes exposing the substrate to an ultraviolet (UV) energy source 840 to improve the physical property defect value.
摘要:
In one embodiment, a method of manufacturing an integrated circuit that comprises forming a circuit layer over a substrate, forming a resist layer on the circuit layer, and subjecting the resist layer to a rework process that includes exposing the resist layer to an organic wash. In another embodiment, the method of manufacturing an integrated circuit comprises forming a circuit layer over a substrate, forming a priming layer on the circuit layer, and subjecting the resist layer to the rework process. The reworking process includes exposing the substrate to a mild plasma ash to substantially remove portions of the resist layer but leave the priming layer.