Abstract: A resist pattern-forming method includes applying a resist underlayer film-forming composition to a substrate to form a resist underlayer film. The resist underlayer film-forming composition includes (A) a polysiloxane. A radiation-sensitive resin composition is applied to the resist underlayer film to form a resist film. The radiation-sensitive resin composition includes (a1) a polymer that changes in polarity and decreases in solubility in an organic solvent due to an acid. The resist film is exposed. The exposed resist film is developed using a developer that includes an organic solvent.

Abstract: A positive-tone radiation-sensitive composition is used in a resist pattern-forming method as a first positive-tone radiation-sensitive composition. A positive-tone radiation-sensitive composition includes a polymer, a photoacid generator, and a solvent. The polymer includes an acid-labile group and a crosslinkable group. The resist pattern-forming method includes providing the first positive-tone radiation-sensitive composition on a substrate to form a first resist pattern on the substrate. The first resist pattern is made to be inactive to light or heat so that the first resist pattern is insoluble in a second positive-tone radiation-sensitive composition. The second positive-tone radiation-sensitive composition is provided on the substrate to form a second resist pattern on the substrate on which the first resist pattern is formed.

Abstract: Providing a method for forming a pattern capable of forming a resist underlayer film that can be easily removed using an alkali liquid while maintaining etching resistance is objected to. Provided by the present invention is a method for forming a pattern, the method including: (1) forming a resist underlayer film on a substrate using a composition for forming a resist underlayer film containing a compound having an alkali-cleavable functional group; (2) forming a resist pattern on the resist underlayer film; (3) forming a pattern on the substrate by dry etching of the resist underlayer film and the substrate, using the resist pattern as a mask; and (4) removing the resist underlayer film with an alkali liquid.

Abstract: A resist pattern-forming method includes applying a resist underlayer film-forming composition to a substrate to form a resist underlayer film. The resist underlayer film-forming composition includes (A) a polysiloxane. A radiation-sensitive resin composition is applied to the resist underlayer film to form a resist film. The radiation-sensitive resin composition includes (a1) a polymer that changes in polarity and decreases in solubility in an organic solvent due to an acid. The resist film is exposed. The exposed resist film is developed using a developer that includes an organic solvent.

Abstract: A resist pattern coating agent includes a hydroxyl group-containing resin and a solvent. The solvent includes an alcohol shown by a following formula (1) in an amount of about 30 mass % or more, R—OH??(1) wherein R represents a branched alkyl group having 3 to 10 carbon atoms. The resist pattern coating agent is used in a resist pattern-forming method. The method includes forming a first resist pattern on a substrate using a first radiation-sensitive resin composition. The first resist pattern is treated with the resist pattern coating agent. A second resist pattern is formed on the substrate treated with the resist pattern coating agent using a second radiation-sensitive resin composition.

Abstract: A positive-tone radiation-sensitive composition is used in a resist pattern-forming method as a first positive-tone radiation-sensitive composition. A positive-tone radiation-sensitive composition includes a polymer, a photoacid generator, and a solvent. The polymer includes an acid-labile group and a crosslinkable group. The resist pattern-forming method includes providing the first positive-tone radiation-sensitive composition on a substrate to form a first resist pattern on the substrate. The first resist pattern is made to be inactive to light or heat so that the first resist pattern is insoluble in a second positive-tone radiation-sensitive composition. The second positive-tone radiation-sensitive composition is provided on the substrate to form a second resist pattern on the substrate on which the first resist pattern is formed.