A substrate processing system includes a coating apparatus configured to coat a photoresist film on a semiconductor substrate, an exposure apparatus configured to irradiate light onto the photoresist film to form a photoresist pattern region, a developing system configured to remove an unnecessary region from the photoresist film except for the photoresist pattern region to form a photoresist pattern, the developing system including a wet developing apparatus and a dry developing apparatus, the wet developing apparatus configured to remove the unnecessary region using a developing solution, the dry developing apparatus configured to remove the unnecessary region using a developing gas, a cleaning apparatus including a cleaning chamber and configured to remove an edge bead of the photoresist film or the photoresist pattern on an edge region of the semiconductor substrate, and a heating apparatus configured to heat the photoresist film or the photoresist pattern.

A photoresist coating apparatus includes a photoresist trap tank temporarily storing a photoresist. A photoresist supply pipe is connected to the photoresist trap tank. A pump is connected to the photoresist supply pipe. A photoresist pressing device is connected to the photoresist supply pipe at a rear of the pump. A photoresist circulation pipe is at a rear of the photoresist pressing device. The photoresist circulation pipe connects the photoresist supply pipe to the photoresist trap tank. A photoresist discharge pipe is connected to the photoresist supply pipe at a rear of the photoresist circulation pipe. A photoresist discharge valve is connected to the photoresist discharge pipe. A photoresist discharge nozzle is connected to the photoresist discharge valve.

Systems, apparatuses, and methods are provided for manufacturing a substrate table. An example method can include forming a vacuum sheet including a plurality of vacuum connections and a plurality of recesses configured to receive a plurality of burls disposed on a core body for supporting an object such as a wafer. Optionally, at least one burl can be surrounded, partially or wholly, by a trench. The example method can further include using the vacuum sheet to mount the core body to an electrostatic sheet including a plurality of apertures configured to receive the plurality of burls. Optionally, the example method can include using the vacuum sheet to mount the core body to the electrostatic sheet such that the plurality of recesses of the vacuum sheet line up with the plurality of burls of the core body and the plurality of apertures of the electrostatic sheet.

A substrate treating apparatus includes: a spin chuck supporting a substrate; a rinse liquid supply unit supplying a rinse liquid; and a bowl member surrounding the spin chuck, wherein the bowl member includes: a first bowl including an inclined surface inclined downward in an outward direction and having an upper surface of which at least a portion has a curvature; and an upper base disposed on the first bowl, a space between the upper surface of the first bowl and a lower surface of the upper base forms a first flow passage and at least a portion of the first flow passage is formed in an arc shape along the upper surface of the first bowl, and the rinse liquid is supplied toward the inclined surface of the first bowl through the first flow passage.

A method includes treating a burled surface of an object using radiation or heat and setting parameters of the radiation or heat to effectuate a predetermined surface strength, hardness, roughness, coefficient of friction, chemical resistance, wear resistance, and/or corrosion of the burled surface.

A substrate processing apparatus includes a hydrophobizing part configured to perform a hydrophobizing process of forming a hydrophobic film on a front surface of a substrate through vapor deposition of a hydrophobizing gas, an ultraviolet radiation part configured to radiate ultraviolet rays to a removal area on a rear surface of the substrate so as to remove the hydrophobic film formed in the removal area in the hydrophobizing process, and a resin-film forming part configured to form a fluororesin film in the removal area after the hydrophobic film is removed.

Apparatus and techniques are described herein for use in manufacturing electronic devices, such as can include organic light emitting diode (OLED) devices. Such apparatus and techniques can include using one or more modules having a controlled environment. For example, a substrate can be received from a printing system located in a first processing environment, and the substrate can be provided a second processing environment, such as to an enclosed thermal treatment module comprising a controlled second processing environment. The second processing environment can include a purified gas environment having a different composition than the first processing environment.

A substrate transfer method performed in a substrate processing apparatus including a transfer mechanism group configured to transfer a substrate into a carrier via a module group and an exposure apparatus is provided. The transfer mechanism group includes a first transfer mechanism configured to transfer the substrate in an order of a pre-stage module, the exposure apparatus, and a first post-stage module, and a second transfer mechanism configured to transfer the substrate in an order of the first post-stage module, a heating module, a developing module, and a second post-stage module, and a post-stage transfer mechanism. The substrate transfer method includes acquiring a section transfer time required to transfer the substrate to a next transfer section; and performing a carry-in or a carry-out of the substrate into/from the exposure apparatus based on a maximum section transfer time, which is the longest in the acquired section transfer times.

A photolithography apparatus includes a cleaning unit which cleans a target substrate, a drying unit which dries the target substrate provided from the cleaning unit, and a coating unit which forms a photoresist layer by coating a photoresist on the target substrate provided from the drying unit. The drying unit includes a first vacuum unit which performs a vacuum treatment on the target substrate.