A semiconductor substrate cleaning apparatus and method are capable of efficiently removing contamination from both the obverse and reverse sides of a semiconductor substrate. A single cleaning liquid supply nozzle for supplying a cleaning liquid to both the obverse and reverse sides of a semiconductor substrate to be cleaned is placed at a distance from the outer peripheral edge of the substrate. An ultrasonic vibrator applies ultrasonic waves to both the obverse and reverse sides of the substrate. Four driving rollers are disposed in contact with the outer peripheral edge of the substrate. The driving rollers are adapte to rotate while being engaged with the outer peripheral edge of the substrate thereby drivingly rotating the substrate.

In accordance with one embodiment there is provided a method of improving the performance of a substrate cleaner of the type having a megasonic probe with a probe shaft extending generally parallel to a surface of a rotating substrate, and at least one dispenser for applying a cleaning liquid onto the surface of the substrate, wherein the megasonic probe agitates the liquid on the surface. The method comprising dissolving gas in the liquid before the liquid reaches the dispenser. In accordance with another embodiment, an apparatus for cleaning substrates comprises a rotary fixture which is adapted to support a substrate and rotate the substrate about a first axis, a probe having a probe shaft extending generally parallel to a surface of the substrate, and a megasonic transducer in acoustically coupled relation to the probe. The apparatus further comprises at least one dispenser that applies a cleaning liquid drawn from a cleaning liquid supply onto a surface of the substrate, and a gasifier operatively associated with the cleaning liquid supply. The gasifier causes gas to dissolve in the cleaning liquid.

In accordance with one embodiment there is provided a method of improving the performance of a substrate cleaner of the type having a megasonic probe with a probe shaft extending generally parallel to a surface of a rotating substrate, and at least one dispenser for applying a cleaning liquid onto the surface of the substrate, wherein the megasonic probe agitates the liquid on the surface. The method comprising dissolving gas in the liquid before the liquid reaches the dispenser. In accordance with another embodiment, an apparatus for cleaning substrates comprises a rotary fixture which is adapted to support a substrate and rotate the substrate about a first axis, a probe having a probe shaft extending generally parallel to a surface of the substrate, and a megasonic transducer in acoustically coupled relation to the probe. The apparatus further comprises at least one dispenser that applies a cleaning liquid drawn from a cleaning liquid supply onto a surface of the substrate, and a gasifier operatively associated with the cleaning liquid supply. The gasifier causes gas to dissolve in the cleaning liquid.

An ultrasonic-wave washing unit comprising an ultrasonic-wave vibrating plate to which an ultrasonic-wave vibrator is fixed by adhesive bonding, an ultrasonic-wave transmission plate opposed to the vibrating plate, a liquid supply means which supplies a liquid to a space defined between the vibrating plate and the transmission plate, and a liquid discharge means for discharging the liquid from the space.

An apparatus for drying a generally flat substrate that has been cleaned has a rotatable support for supporting the substrate, a substrate drying assembly, and a controller. The substrate drying assembly includes a substrate drying assembly support arm, an outlet for applying liquid to an upper surface of the substrate, and an outlet for applying a drying vapor to the upper surface of the substrate. The substrate drying assembly is configured to position the liquid applying outlet and to position the vapor applying outlet above a portion of the substrate. The controller causes the substrate drying assembly to be retracted over the upper surface of the substrate at a faster rate near a center of the substrate than near a periphery of the substrate.