Abstract: According to one embodiment, provided is a substrate cleaning apparatus including: a cleaning member configured to clean a substrate; a plate having a horizontal plane provided with a hole; and a pressing mechanism configured to press the cleaning member vertically downward against the plate, wherein the hole penetrates the plate, and a liquid discharged from the cleaning member is discharged below via the hole, whereby absorption of the liquid discharged from the cleaning member into the cleaning member is suppressed.

Abstract: Provided is a substrate cleaning apparatus including: a substrate holding and rotating mechanism configured to hold and rotate a substrate; a cleaning liquid supplier configured to supply a cleaning liquid to the substrate; a cleaning member configured to come into contact with the substrate to clean the substrate; a charge amount adjustment apparatus capable of increasing and decreasing a charge amount of the substrate; a charge amount measuring instrument configured to measure the charge amount of the substrate; and a controller configured to control the charge amount adjustment apparatus according to the charge amount measured by the charge amount measuring instrument.

Abstract: A substrate processing method capable of suppressing corrosion of a conductive material on a surface of a substrate by supplying a liquid having a reduced concentration of dissolved oxygen onto the substrate. The substrate processing method includes: dissolving an inert gas in a liquid at not less than a saturation solubility to replace oxygen dissolved in the liquid with the inert gas; generating bubbles of the inert gas in the liquid by depressurizing the liquid in which the inert gas is dissolved; and processing the substrate while supplying the liquid containing the bubbles to the surface of the substrate.

Abstract: To perform both buff cleaning of a substrate surface and cleaning of an edge part of the substrate, a cleaning module includes: a rotary table configured to support a circular substrate and have a diameter smaller than a diameter of the substrate; a buff cleaning portion configured to buff clean a front side of the substrate while contacting the front side of the substrate supported by the rotary table; a buff cleaning portion movement mechanism configured to move the buff cleaning portion with respect to the substrate; a buff cleaning portion control mechanism configured to control an operation of the buff cleaning portion movement mechanism; and an edge cleaning portion configured to clean an edge part of the substrate while contacting the edge part of the substrate supported by the rotary table.

Abstract: A semiconductor device includes a first semiconductor region of a first conductivity type, a second semiconductor region of a second conductivity type provided on the first semiconductor region, a third semiconductor region of the first conductivity type provided on the second semiconductor region, a first insulating part provided in the first semiconductor region, a first electrode provided in the first semiconductor region, the first insulating part disposed between the first electrode and the first semiconductor region, a second insulating part provided on the first electrode, a gate electrode provided on the second insulating part, a gate insulating part provided between the gate electrode and the second semiconductor region, and a second electrode provided on the second semiconductor region and on the third semiconductor region, and is electrically connected to the second semiconductor region, the third semiconductor region, and the first electrode.

Abstract: A semiconductor device includes a first semiconductor region of a first conductivity type, a second semiconductor region of a second conductivity type provided on the first semiconductor region, a third semiconductor region of the first conductivity type provided on the second semiconductor region, a first insulating part provided in the first semiconductor region, a first electrode provided in the first semiconductor region, the first insulating part disposed between the first electrode and the first semiconductor region, a second insulating part provided on the first electrode, a gate electrode provided on the second insulating part, a gate insulating part provided between the gate electrode and the second semiconductor region, and a second electrode provided on the second semiconductor region and on the third semiconductor region, and is electrically connected to the second semiconductor region, the third semiconductor region, and the first electrode.

Abstract: A semiconductor device includes a first semiconductor region of a first conductivity type, a second semiconductor region of a second conductivity type provided on the first semiconductor region, a third semiconductor region of the first conductivity type provided on the second semiconductor region, a first insulating part provided in the first semiconductor region, a first electrode provided in the first semiconductor region, the first insulating part disposed between the first electrode and the first semiconductor region, a second insulating part provided on the first electrode, a gate electrode provided on the second insulating part, a gate insulating part provided between the gate electrode and the second semiconductor region, and a second electrode provided on the second semiconductor region and on the third semiconductor region, and is electrically connected to the second semiconductor region, the third semiconductor region, and the first electrode.

Abstract: A semiconductor device includes a first semiconductor region of a first conductivity type, a second semiconductor region of a second conductivity type provided on the first semiconductor region, a third semiconductor region of the first conductivity type provided on the second semiconductor region, a first insulating part provided in the first semiconductor region, a first electrode provided in the first semiconductor region, the first insulating part disposed between the first electrode and the first semiconductor region, a second insulating part provided on the first electrode, a gate electrode provided on the second insulating part, a gate insulating part provided between the gate electrode and the second semiconductor region, and a second electrode provided on the second semiconductor region and on the third semiconductor region, and is electrically connected to the second semiconductor region, the third semiconductor region, and the first electrode.

Abstract: A substrate processing apparatus according to an embodiment includes: a liquid supplier configured to supply a processing liquid to a surface of a substrate; a temperature detector configured to detect a surface temperature of the substrate supplied with the processing liquid by the liquid supplier; a temperature monitor configured to determine whether or not the surface temperature detected by the temperature detector has reached a predetermined temperature; and a controller configured to cause the liquid supplier to stop supplying the processing liquid when the temperature monitor determines that the surface temperature has reached the predetermined temperature.

Abstract: A substrate processing apparatus according to an embodiment includes: a liquid supplier configured to supply a processing liquid to a surface of a substrate; a temperature detector configured to detect a surface temperature of the substrate supplied with the processing liquid by the liquid supplier; a temperature monitor configured to determine whether or not the surface temperature detected by the temperature detector has reached a predetermined temperature; and a controller configured to cause the liquid supplier to stop supplying the processing liquid when the temperature monitor determines that the surface temperature has reached the predetermined temperature.