An alignment nozzle jig for centering a coater photoresist arm that includes an alignment nozzle block. The alignment nozzle jig also includes an endoscope holder removably secured to a bottom of the alignment nozzle block, an endoscope, and an alignment mark removably coupled to the endoscope holder opposite the alignment nozzle block. The alignment nozzle jig is retrieved from a nozzle bath by the coater arm and transferred to a center of a chuck in an associated process chamber. Via the endoscope, the coater photoresist arm is aligned with the center of the chuck using the alignment mark.

Disclosed is an apparatus for treating a substrate, which includes: a first unit configured to perform a coating process of forming a film on a substrate; a transfer unit including a transfer robot transferring a substrate for which the coating process is terminated; and a controller controlling the first unit and the transfer unit, in which the controller controls the substrate for which the coating process is terminated in the first unit to rotate at a first rotational velocity until the substrate is transferred by the transfer unit.

The present disclosure provides a method of heating a spin on coating (SOC) film on a wafer. The method includes actions S401 to S405. In action S401, a heating apparatus is provided. The heating apparatus includes a bake plate and an electromagnetic wave generator. In action S402, the bake plate is heated by a heating unit disposed in the bake plate. In action S403, the wafer is placed on the bake plate of the heating apparatus. In action S404, the electromagnetic wave generator generates an electromagnetic wave to heat the SOC film. The electromagnetic wave generated by the electromagnetic wave generator has a frequency within a range of 1 THz to 100 THz. In action S405, the wafer is removed from the bake plate of the heating apparatus.

A positive resist composition is provided comprising two onium salts, a base polymer comprising acid labile group-containing recurring units, and an organic solvent. The positive resist composition forms a pattern having PED stability and improved properties including DOF, LWR, and controlled footing profile.

A coating film forming method includes: rotating a substrate at a first rotation speed in a coating cup with an upper surface open, and supplying and diffusing a coating solution for forming a coating film on the substrate; and after the supplying and diffusing the coating solution, drying the substrate by exhausting air through a gap between an annular member arranged above the substrate with centers thereof being located on a same axis and the front surface of the substrate, while rotating the substrate at a second rotation speed lower than the first rotation speed, wherein at the drying the substrate, a flow velocity of the air exhausted through the gap is higher than a flow velocity of air supplied from above the substrate in the coating cup to the substrate.

Provided is an apparatus for treating a substrate. The apparatus for treating a substrate may include: a liquid treating chamber configured to liquid-treat a substrate; and a controller configured to control the liquid treating chamber, and the liquid treating chamber may include a treating container having a treating space therein; a support unit configured to support and rotate the substrate in the treating space; a liquid supply unit configured to supply a liquid onto the substrate; and an elevation unit configured to adjust a relative height between the treating container and the support unit, and the controller may control the elevation unit so as to adjust the relative height between the treating container and the support unit according to a warpage state of the substrate supported on the support unit when conducting substrate treating by supplying the liquid onto the substrate while rotating the substrate.

Provided is an apparatus for treating a substrate. The apparatus for treating the substrate includes: a first process chamber having a first treating space therein; a second process chamber having a second treating space therein; and an exhaust unit configured to exhaust atmospheres of the first treating space and the second treating space, in which the exhaust unit includes an integrated exhaust line in which a pressure reduction unit is installed, a first exhaust line configured to connect the first process chamber and a first point of the integrated exhaust line, a second exhaust line configured to connect the first process chamber and a second point of the integrated exhaust line, and an interference alleviation unit configured to alleviate exhaust interference between the first process chamber and the second process chamber.

A siloxane polymer comprising polysiloxane, silphenylene, isocyanuric acid, and polyether skeletons in a backbone and having an epoxy group in a side chain is provided. A photosensitive resin composition comprising the siloxane polymer and a photoacid generator is coated to form a film which can be patterned using radiation of widely varying wavelength. The patterned film has high transparency and light resistance.

A positive-type photosensitive resin composition comprises a (a) polybenzoxazole precursor, a (b) crosslinking agent, a (c) photosensitive agent, and a (d) solvent, wherein the (a) polybenzoxazole precursor comprises a structure represented by Formula (1) below, and the (c) photosensitive agent is a compound comprising a structure represented by Formula (2) below. In Formula (1), U is a bivalent organic group, a single bond, —O—, or —SO.sub.2—, V is a group comprising an aliphatic structure, and the carbon number in the aliphatic structure is 1 to 30. ##STR00001##

A resin having a small linear thermal expansion coefficient and a low absorbance is provided. The resin is characterized by including at least one structure selected from structures represented by the following general formulae (1) and (2):

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