Abstract: A substrate processing apparatus includes a processing tank, a substrate holding section, a bubble supply section, and processing liquid supply sections. The substrate holding section immerses a substrate in a processing liquid stored in the processing tank. The bubble supply section supplies bubbles to the processing liquid from below the substrate. The processing tank includes a first side wall and a second side wall. The processing liquid supply sections include one or more first processing liquid supply sections and one or more second processing liquid supply sections. The one or more first processing liquid supply sections are disposed on a side of the first side wall and supply the processing liquid toward the bubbles. The one or more second processing liquid supply sections are disposed on a side of the second side wall and supply the processing liquid toward the bubbles.

Abstract: Substrates are immersed in a treatment fluid stored in a treatment chamber, and subjected to a surface treatment. A first lid and a second lid cover an upper opening of the treatment chamber. The first lid and the second lid each include sloped surfaces. At least a part of the first lid and the second lid is immersed in the treatment fluid. During the treatment on the substrates, a plurality of bubble supply pipes eject bubbles into the treatment fluid. The sloped surfaces formed on the first lid and the second lid guide the bubbles reaching an interface between the treatment fluid, the first lid, and the second lid diagonally upward. Thus, the bubbles are smoothly released outside the treatment chamber. This can eliminate retention of the bubbles, avoid contacts between the bubbles and the substrates, and suppress a decrease in the treatment uniformity.

Abstract: An upward laminar flow of a treatment fluid is formed inside a treatment chamber. Substrates are immersed in the treatment fluid. Eight bubble supply pipes are disposed inside the treatment chamber, and supply bubbles in the treatment fluid from below the substrates. Two innermost bubble supply pipes out of the eight bubble supply pipes are disposed inside a recess of a punching plate so that the two bubble supply pipes are lower than the other bubble supply pipes. Even when a lifter lowers the substrates to an immersion position, an extremity of a back plate is prevented from hitting the two bubble supply pipes. Furthermore, the eight bubble supply pipes including the two innermost bubble supply pipes can uniformly supply bubbles to the surface of the substrates.

Abstract: A substrate processing apparatus includes a processing bath, a first lid member, an outer bath, a processing liquid introduction unit, a first gas supply unit, and a second gas supply unit. The processing bath stores a processing liquid in which a substrate is immersed. The first lid member covers an upper opening of the processing bath. The outer bath is provided outside of the processing bath and a processing liquid overflowing out of the processing liquid from the processing bath flows into the outer bath. The processing liquid introduction unit is able to introduce the processing liquid stored in the outer bath into the processing bath. The first gas supply unit supplies a first inert gas to the processing liquid stored in the processing bath. The second gas supply unit supplies a second inert gas into the outer bath.

Abstract: A substrate processing device includes a processing tank, a substrate holding unit, a fluid supply unit, and a control unit. The processing tank stores a processing liquid for processing a substrate. The substrate holding unit holds the substrate in the processing liquid in the processing tank. The fluid supply unit supplies a fluid to the processing tank. The control unit controls the fluid supply unit. The control unit controls the fluid supply unit such that the fluid supply unit changes supply of the fluid during a period from a start of supply of the fluid to the processing tank storing the processing liquid in which the substrate is immersed to an end of supply of the fluid to the processing tank storing the processing liquid in which the substrate is immersed.

Abstract: A substrate processing method is a method of performing an etching process on a substrate with an etching solution in a processing tank. The substrate includes silicon oxide films and silicon nitride films stacked alternately. The etching solution contains phosphoric acid. The substrate processing method includes immersing the substrate in the etching solution, and replenishing the etching solution in the processing tank with phosphoric acid during the etching process on the substrate to cause a silicon concentration in the etching solution to vary.

Abstract: A substrate processing device includes a processing tank, a substrate holding unit, a fluid supply unit, and a control unit. The processing tank stores a processing liquid for processing a substrate. The substrate holding unit holds the substrate in the processing liquid in the processing tank. The fluid supply unit supplies a fluid to the processing tank. The control unit controls the fluid supply unit. The control unit controls the fluid supply unit such that the fluid supply unit changes supply of the fluid during a period from a start of supply of the fluid to the processing tank storing the processing liquid in which the substrate is immersed to an end of supply of the fluid to the processing tank storing the processing liquid in which the substrate is immersed.

Abstract: A substrate treatment apparatus is provided with a plurality of substrate treatment parts and a liquid treatment system. The substrate treatment part has a substrate retaining part, which retains a substrate, and a discharge nozzle, which discharges a treatment liquid to the substrate retained by the substrate retaining part. The liquid treatment system has: a storage tank that stores in the treatment liquid; a supply piping part that is connected to the storage tank and forms a supply passage through which the treatment liquid to be supplied to the discharge nozzle passes; a return piping part that is connected to the storage tank and forms a return passage that returns the treatment liquid passed through the supply piping part to the storage tank; and a gas supply part that supplies a nitrogen gas different from oxygen dissolved in the treatment liquid into the return passage of the return piping part.

Abstract: A substrate processing device includes a processing tank, a substrate holding unit, a fluid supply unit, and a control unit. The processing tank stores a processing liquid for processing a substrate. The substrate holding unit holds the substrate in the processing liquid in the processing tank. The fluid supply unit supplies a fluid to the processing tank. The control unit controls the fluid supply unit. The control unit controls the fluid supply unit such that the fluid supply unit changes supply of the fluid during a period from a start of supply of the fluid to the processing tank storing the processing liquid in which the substrate is immersed to an end of supply of the fluid to the processing tank storing the processing liquid in which the substrate is immersed.

Abstract: A deoxygenation apparatus reduces the concentration of dissolved oxygen in a target liquid. The deoxygenation apparatus includes a reservoir for holding the target liquid, a gas supply part for supplying an additive gas different from oxygen into the target liquid in the reservoir, a storage part for storing correlation information indicating the relationship between the concentration of dissolved oxygen in the target liquid and a total supply amount that is a total amount of the additive gas supplied from the gas supply part into the target liquid from when supply was started, and a calculation part for obtaining the concentration of dissolved oxygen in the target liquid on the basis of the total supply amount and the correlation information. The concentration of dissolved oxygen in the target liquid is easily acquired without measuring the concentration of dissolved oxygen in the target liquid with an oxygen analyzer.

Abstract: A substrate treatment apparatus is provided with a plurality of substrate treatment parts and a liquid treatment system. The substrate treatment part has a substrate retaining part, which retains a substrate, and a discharge nozzle, which discharges a treatment liquid to the substrate retained by the substrate retaining part. The liquid treatment system has: a storage tank that stores in the treatment liquid; a supply piping part that is connected to the storage tank and forms a supply passage through which the treatment liquid to be supplied to the discharge nozzle passes; a return piping part that is connected to the storage tank and forms a return passage that returns the treatment liquid passed through the supply piping part to the storage tank; and a gas supply part that supplies a nitrogen gas different from oxygen dissolved in the treatment liquid into the return passage of the return piping part.

Abstract: A deoxygenation apparatus reduces the concentration of dissolved oxygen in a target liquid. The deoxygenation apparatus includes a reservoir for holding the target liquid, a gas supply part for supplying an additive gas different from oxygen into the target liquid in the reservoir, a storage part for storing correlation information indicating the relationship between the concentration of dissolved oxygen in the target liquid and a total supply amount that is a total amount of the additive gas supplied from the gas supply part into the target liquid from when supply was started, and a calculation part for obtaining the concentration of dissolved oxygen in the target liquid on the basis of the total supply amount and the correlation information. The concentration of dissolved oxygen in the target liquid is easily acquired without measuring the concentration of dissolved oxygen in the target liquid with an oxygen analyzer.