Systems and methods for semiconductor fabrication are described. A spin coater comprises a spin chuck, a nozzle, a nozzle housing, a purge gas supply, and an organic solvent supply. The nozzle housing includes a lower housing including a solvent storage groove in which the organic solvent is stored, and an upper housing on the lower housing. The upper housing includes a nozzle insert hole on the solvent storage groove and receives the nozzle, and a gas supply hole connected to one side of the nozzle insert hole.

An apparatus for chemical mechanical polishing includes a rotatable platen having a surface to support a polishing pad, a carrier head to hold a substrate in contact with the polishing pad, and a polishing liquid distribution system. The polishing liquid distribution system includes a dispenser positioned to deliver a polishing liquid to a portion of a polishing surface of the polishing pad, and a curved barrier positioned after the dispenser to spread fresh polishing liquid from the dispenser.

An apparatus for inspecting a semiconductor substrate includes a rotatable base configured to support a substrate, and a nozzle arm includes a nozzle and a light monitoring device. The light monitoring device includes a laser transmitter and an array of light sensors arranged in the nozzle arm and facing the substrate. The light monitoring device is configured to transmit a laser pulse towards the substrate, wherein the laser pulse impinges on the substrate, receive a reflected laser pulse from the substrate, calculate whether one or more light sensors received the laser pulse, and calculate a distance between the light monitoring device and the substrate using the turnaround time for determining a process quality on the substrate.

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also has a holder member configured to hold the plurality of substrates while the substrates are immersed into and withdrawn from the liquid in the processing tank as well as a straightening vane configured to be positioned in the liquid above the plurality of substrates in the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 substrate processing apparatus includes a liquid processing module, including a carry-out/in port of a substrate, in which a first liquid processing device and a second liquid processing device provided at a position farther from the carry-out/in port than the first liquid processing device is are provided; and a transfer device configured to carry the substrate out from and into the liquid processing module. The first liquid processing device performs a first liquid processing on the substrate. The second liquid processing device performs a second liquid processing on the substrate before or after the first liquid processing. The transfer device includes a substrate holder configured to be moved back and forth in a first horizontal direction, and carries the non-processed substrate into the first liquid processing device through the carry-out/in port and carries the processed substrate out from the first liquid processing device through the carry-out/in port.

A substrate processing method for removing an organic film on a substrate includes a) carrying out introduction of ozone-containing gas into a substrate processing chamber to fill at least a space above the substrate in the substrate processing chamber with ozone-containing gas, b) starting spraying through the space a heated chemical liquid containing sulfuric acid onto the substrate after the a), c) continuing the spraying started in the b), and d) stopping the spraying continued in the c).

The present invention provides a substrate treating apparatus including: a support unit for supporting and rotating a substrate on which a first pattern and a second pattern different from the first pattern are formed; a liquid supply unit for supplying a treatment liquid to the substrate supported on the support unit; and a heating unit for heating any one of the first pattern and the second pattern.

The inventive concept provides a substrate treating apparatus. The substrate treating apparatus includes a treating container having a treating space; a support unit configured to support and rotate a substrate in the treating space; an exhaust line coupled to the treating container and configured to exhaust an airflow within the treating space; a support frame provided independently of a rotation of the support unit and positioned between the treating container and the support unit; and a guide vane protruding to an outside of the support frame and configured to guide the airflow within the treating space in a downward direction.

In a first aspect of a present inventive subject matter, a method of etching an object to be etched with an etching liquid that contains bromine, and the object contains at least gallium and/or aluminum.

A substrate processing method includes a step of supplying a dry processing liquid onto the upper surface of the substrate, to thereby form a liquid film of the dry processing liquid on the upper surface of the substrate (Step S14), a step of heating the substrate from the side of a lower surface thereof in a state where the liquid film of the dry processing liquid is formed on the upper surface thereof (Step S15), and a step of drying the substrate (Step S16). The surface tension of the dry processing liquid is lower than that of the rinse liquid. The boiling point of the dry processing liquid is higher than that of the rinse liquid. The heating temperature of the substrate in Step S15 is not lower than the boiling point of the rinse liquid and lower than that of the dry processing liquid.