A storage container storing a treatment liquid for manufacturing a semiconductor is provided, wherein the occurrence of defects on the semiconductor, such as particles, is suppressed and a fine resist pattern or a fine semiconductor element is manufactured. The storage container includes a storage portion that stores a treatment liquid for manufacturing a semiconductor, and the treatment liquid for manufacturing a semiconductor includes one kind or two or more kinds of metal atoms and a total content of particulate metal is 0.01 to 100 mass ppt with respect to a total mass of the treatment liquid.

A storage container storing a treatment liquid for manufacturing a semiconductor is provided, wherein the occurrence of defects on the semiconductor, such as particles, is suppressed and a fine resist pattern or a fine semiconductor element is manufactured. The storage container includes a storage portion that stores a treatment liquid for manufacturing a semiconductor, and the treatment liquid for manufacturing a semiconductor includes one kind or two or more kinds of metal atoms and a total content of particulate metal is 0.01 to 100 mass ppt with respect to a total mass of the treatment liquid.

The present disclosure provides a secondary imaging optical lithography method and apparatus. The method includes: contacting a lithography mask plate with a flexible transparent transfer substrate closely, the flexible transparent transfer substrate comprising a first near-field imaging structure having a photosensitive layer; irradiating the photosensitive layer through the lithography mask plate with a first light source, so as to transfer a pattern of the lithography mask plate to the photosensitive layer; coating a device substrate for fabricating devices with a photoresist; contacting the flexible transparent transfer substrate with the photoresist-coated device substrate closely; irradiating the device substrate through the flexible transparent transfer substrate with a second light source, so as to transfer a pattern of the photosensitive layer to the photoresist of the device substrate; and developing the device substrate comprising an exposed photoresist, so as to obtain a device pattern conforming to the pattern of the lithography mask plate.

A liquid processing apparatus includes a substrate holder configured to hold a substrate; a processing liquid supply configured to supply a processing liquid onto a front surface of the substrate; a gas supply configured to supply a gas onto the front surface of the substrate; and a controller. The gas supply includes a diffusion nozzle which is provided with multiple discharge openings respectively elongated at different angles with respect to the front surface of the substrate. The controller performs controlling the gas supply to jet the gas from the diffusion nozzle onto a region of the front surface of the substrate including at least a central portion thereof in a state that the processing liquid is supplied on the front surface of the substrate.

Embodiments of the invention include methods and structures for controlling developer critical dimension (DCD) variations across a wafer surface. Aspects of the invention include an apparatus having developer tubing and an internal cam. The internal cam is coupled to a fixed axis. A flexible divider is positioned between the developer tubing and the internal cam. The flexible divider is coupled to the internal cam such that rotation of the internal cam about the fixed axis is operable to change an inner diameter of the developer tubing.

An apparatus for fabricating a semiconductor device may include a nozzle having a slit configured to eject solution and an ultraviolet emitter provided outside the nozzle. The ultraviolet emitter and the nozzle may be configured to move horizontally. The slit may be provided on a bottom surface of the nozzle.

An apparatus for fabricating a semiconductor device may include a nozzle having a slit configured to eject solution and an ultraviolet emitter provided outside the nozzle. The ultraviolet emitter and the nozzle may be configured to move horizontally. The slit may be provided on a bottom surface of the nozzle.

The present invention provides a resist composition which has sufficient resistant to a plating treatment and is capable of forming a resist pattern with high accuracy. The present invention also provides a method for producing a resist pattern using the resist composition, and a method for producing a plated molded article using the resist pattern. The present invention relates to a resist composition comprising a compound (I) having a quinone diazide sulfonyl group, a resin comprising a structural unit having an acid-labile group (A1), an alkali-soluble resin (A2) and an acid generator (B); a method for producing a resist pattern using the resist composition; and a method for producing a plated molded article using the resist pattern.

The present invention provides a resist composition which has sufficient resistant to a plating treatment and is capable of forming a resist pattern with high accuracy. The present invention also provides a method for producing a resist pattern using the resist composition, and a method for producing a plated molded article using the resist pattern. The present invention relates to a resist composition comprising a compound (I) having a quinone diazide sulfonyl group, a resin comprising a structural unit having an acid-labile group (A1), an alkali-soluble resin (A2) and an acid generator (B); a method for producing a resist pattern using the resist composition; and a method for producing a plated molded article using the resist pattern.

A copolymer including fluorinated units of formula (I):

—CX.sub.1X.sub.2—CX.sub.3X.sub.4—  (I)

in which each of the X.sub.1, X.sub.2, X.sub.3 and X.sub.4 is independently chosen from H, F and alkyl groups including from 1 to 3 carbon atoms which are optionally partially or totally fluorinated; and fluorinated units of formula (II):

—CX.sub.5X.sub.6—CX.sub.7Z—  (II)

in which each of the X.sub.5, X.sub.6 and X.sub.7 is independently chosen from H, F and alkyl groups including from 1 to 3 carbon atoms which are optionally partially or totally fluorinated, and in which Z is a photoactive group of formula —Y—Ar—R, Y representing an oxygen atom or an NH group or a sulfur atom, Ar representing an aryl group, and R being a monodentate or bidentate group including from 1 to 30 carbon atoms. Also, a process for preparing this copolymer, a composition including this copolymer, and a film obtained from this copolymer.