Abstract: An improved semiconductor wafer processing apparatus 10 includes a series of processing stations combined in one form, coupled together by computer-controlled cluster tooling. Wafers are supplied in a pod to an input station 28 which initiates a data record for recording processing results at each station. A sacrificial film 140 is applied to the surface 135 of each wafer. Individual wafers are transferred to a computer-controlled defect-mapping station 14 where particulate defects 130 are identified and their position coordinates recorded. Defect-mapped wafers are transferred to a computer-controlled laser area cleaning station 11 which lifts the defects and sweeps the wafer surface clean, except for stubborn defects. Clean wafers are transferred to a final mapping station 20 or 22, followed by transfer of the wafers to an output station 30.

Abstract: An improved method for removing contaminant particles from a surface of a semiconductor wafer includes forming a sacrificial film on the surface of the wafer and then removing the sacrificial film by supercritical fluid cleaning. The removal of the sacrificial film via the supercritical fluid cleaning process facilitates removing the contaminant particles. The method further includes identifying and characterizing the contaminant particles and creating a record of the contaminant particle data. The composition of the sacrificial film is selected based on the contaminant particles data and the supercritical cleaning recipe is selected based on the composition of the sacrificial film and the contaminant particles data.