Abstract: An object of the present is to uniform particle diameters and speeds of liquid droplets in a two-fluid nozzle for cleaning substrates which mixes gas and liquid internally and injects liquid droplets with gas so as to clean a substrate. The two-fluid nozzle for cleaning substrates has a gas supply passage for supplying gas, a liquid supply passage for supplying liquid, and a lead-out passage for leading out internally-formed liquid droplets, wherein an injection port for injecting liquid droplets to the outside is formed at the front end of the lead-out passage, and wherein a cross-sectional area Sb of the injection port is formed smaller than a cross-sectional area Sa of the lead-out passage, and a cross sectional area Sc of an exit of the gas supply passage is formed smaller than the cross-sectional area Sa of the lead-out passage.

Abstract: A manufacturing method of a semiconductor device is provided for improving the reliability of a semiconductor device including a MISFET with a high dielectric constant gate insulator and a metal gate electrode. A first Hf-containing insulating film containing Hf, La, and O as a principal component is formed as a high dielectric constant gate insulator for an n-channel MISFET. A second Hf-containing insulating film containing Hf, Al, and O as a principal component is formed as a high dielectric constant gate insulator for a p-channel MISFET. Then, a metal film and a silicon film are formed and patterned by dry etching to thereby form first and second gate electrodes. Thereafter, parts of the first and second Hf-containing insulating films not covered with the first and second gate electrodes are removed by wet etching.

Abstract: A manufacturing method of a semiconductor device is provided for improving the reliability of a semiconductor device including a MISFET with a high dielectric constant gate insulator and a metal gate electrode. A first Hf-containing insulating film containing Hf, La, and O as a principal component is formed as a high dielectric constant gate insulator for an n-channel MISFET. A second Hf-containing insulating film containing Hf, Al, and O as a principal component is formed as a high dielectric constant gate insulator for a p-channel MISFET. Then, a metal film and a silicon film are formed and patterned by dry etching to thereby form first and second gate electrodes. Thereafter, parts of the first and second Hf-containing insulating films not covered with the first and second gate electrodes are removed by wet etching.

Abstract: There is provided a method for cleaning a semiconductor device capable of making compatible the inhibition of dissolution of a gate metal material and the acquisition of a favorable contact resistance.

Abstract: Initially, an interconnection 5w that contains copper is formed on a semiconductor substrate 1 (step (A)). On the interconnection 5w, an etching stopper film 6es is formed (step (B)). On the etching stopper film 6es, an insulating layer 6 is formed (step (C)). In the insulating layer 6, a via hole 6v that reaches the etching stopper film 6es is formed (step (D)). A surface of each of via hole 6v and the insulating layer 6 is cleaned with an organic solvent C (step (E)). The etching stopper film 6es is removed such that the interconnection 5w is exposed (step (F)). An interconnection 6w that electrically connects to the exposed interconnection 5w is further formed (step (G)). It is thereby possible to obtain a method of manufacturing a semiconductor device, including a cleaning step that can suppress corrosion of an interconnection that contains copper.

Abstract: There is provided a method of efficiently cleaning substrates without damaging a fine pattern formed thereon. It is a method of cleaning one or more substrates in a system processing one or more substrates as one batch by dipping one or more substrates as one batch, including the steps of: immersing one or more substrates as one batch in a wet etching solution; ultrasonically cleaning one or more substrates as one batch; and drying one or more substrates as one batch. The step of ultrasonically cleaning employs a cleaning solution having a gas dissolved therein to have a degree of saturation of 60% to 100% at an atmospheric pressure, and an ultrasonic wave having a frequency of at least 500 kHz and an energy of 0.02 W/cm2 to 0.5 W/cm2.

Abstract: An object of the present is to uniform particle diameters and speeds of liquid droplets in a two-fluid nozzle for cleaning substrates which mixes gas and liquid internally and injects liquid droplets with gas so as to clean a substrate. The two-fluid nozzle for cleaning substrates has a gas supply passage for supplying gas, a liquid supply passage for supplying liquid, and a lead-out passage for leading out internally-formed liquid droplets, wherein an injection port for injecting liquid droplets to the outside is formed at the front end of the lead-out passage, and wherein a cross-sectional area Sb of the injection port is formed smaller than a cross-sectional area Sa of the lead-out passage, and a cross sectional area Sc of an exit of the gas supply passage is formed smaller than the cross-sectional area Sa of the lead-out passage.