A substrate liquid processing apparatus A1 includes a processing tub 41 accommodating a processing liquid 43 and a substrate 8; a gas nozzle 70 discharging a gas into a lower portion within the processing tub 41; a gas supply unit 90 supplying the gas; a gas supply line 93 connecting the gas nozzle 70 with the gas supply unit 90; a decompression unit 95 introducing the processing liquid 43 within the processing tub 41 into the gas supply line 93 by decompressing the gas supply line 93; and a control unit 7 performing a first control of controlling the gas supply unit 90 to stop supply of the gas and controlling the decompression unit 95 to introduce the processing liquid 43 into the gas supply line 93 in a part of an idle period during which the substrate 8 is not accommodated in the processing tub 41.

A chemical liquid treatment apparatus includes processing chambers; a chemical liquid feeding unit configured to cyclically feed a chemical liquid into the processing chambers; and a modifying unit. The modifying unit, when using a chemical liquid in which an effect thereof varies with a chemical liquid discharge time, is configured to calculate a variation of the effect of the chemical liquid based on the chemical liquid discharge time and is configured to modify the chemical liquid discharge time for each of the processing chambers based on the calculated variation of the effect of the chemical liquid and a cumulative time of the chemical liquid discharge time.

An etcher comprises a bath, a plurality of blades, and a tunnel. The bath includes a first electrode at a first end and a second electrode at a second end. The plurality of blades is configured to fit in the bath. At least one blade of the plurality of blades holds a wafer. At least one tunnel is configured to fit between adjacent blades of the plurality of blades in the bath.

A turnaround mechanism of silicon wafers is provided. The turnaround mechanism includes a material frame, a supporting component, a second clamping component. The frame is provided with a material tank. The supporting component includes at least one first clamping component, and each of the at least one first clamping component is configured to clamp or release a support. The second clamping component includes two first rotating shafts disposed oppositely and two second clamping members, the two first rotating shafts are rotatably connected to the material frame, the two second clamping members are correspondingly disposed on the two first rotating shafts respectively, and each of the two second clamping members can rotate with a corresponding first rotating shaft, enabling the two second clamping members to move toward each other to clamp the silicon wafers to be separated.

The invention relates to a module for chemically processing a substrate, a method for chemically processing a substrate and a use of a module for chemically processing a substrate and in particular a large substrate. The module for chemically processing a substrate comprises: an immersion chamber, a spray unit, and a motion unit (14). The immersion chamber is configured to receive a first liquid and the substrate, so that the substrate is immersed in the liquid. The spray unit comprises a plurality of spray nozzles, which are configured to spray a second liquid within the immersion chamber. The motion unit is configured to provide a relative motion between the substrate and the spray unit.

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.

An apparatus includes: a tank storing a processing liquid; a circulation line; a branch line; a processing part for supplying the processing liquid to a substrate at the branch line; a discharge part for reducing a storage amount of the processing liquid; a supply part for supplying a new processing liquid to the tank; and a controller including: a first determination part for determining whether the storage amount is less than a lower limit value; a first replenishment controller for replenishing the processing liquid to the tank when the storage amount is less than the lower limit value; a calculation part for calculating a replenishment amount of the processing liquid; and a second replenishment controller for reducing the storage amount and replenishing the processing liquid to the tank when a calculation value of the replenishment amount is less than a set value.

A substrate processing apparatus, including a processing chamber including a first internal space and a second internal space arranged in a vertical direction, the first internal space being configured to receive process gas to generate plasma; an induction electrode configured to divide the processing chamber, and having a plurality of through-holes arranged to connect the first internal space and the second internal space, wherein the plurality of through-holes are configured to induce an ion beam extracted from ions included in the plasma generated in the first internal space; a radical supply located in the second internal space, and including a reservoir configured to receive chemical liquid in which an object to be processed is immersed, and a lower electrode configured to apply nanopulses to the reservoir to generate radicals from the chemical liquid; and a chemical liquid supply configured to supply the chemical liquid to the reservoir.

According to one embodiment, a substrate processing device includes a processing tank to store a liquid and to permit a plurality of substrates to be immersed in the liquid at the same time. The device also has a holder member configured to hold the plurality of substrates while the substrates are immersed into and withdrawn from the liquid in the processing tank as well as a straightening vane configured to be positioned in the liquid above the plurality of substrates in the processing tank. The straightening vane includes vane portions extending in a vertical direction into the processing tank that have a length in the vertical direction that is greater than a cross sectional width in a horizontal direction perpendicular to the vertical direction. A bubble discharge pipe is disposed in the processing tank below the holder member. The bubble discharge pipe discharges gas into the liquid.

A method of processing a plurality of substrates includes immersing the plurality of substrates into a bath solution contained in a bath chamber; generating gas bubbles in the bath solution; projecting light from a light source toward the bath chamber; generating light sensor data by capturing light emanating off the bath chamber after interacting with the gas bubbles with a light sensor; and converting the light sensor data into a metric for the bath solution.