A resist underlayer film for lithography does not cause intermixing with a resist layer, has high dry etching resistance and high heat resistance, and generates a low amount of sublimate. A resist underlayer film-forming composition containing a polymer having a unit structure of the following formula (1):

##STR00001##

wherein A is a divalent group having at least two amino groups, the group is derived from a compound having a condensed ring structure and an aromatic group for substituting a hydrogen atom on the condensed ring, and B.sup.1 and B.sup.2 are each independently a hydrogen atom, an alkyl group, a benzene ring group, a condensed ring group, or a combination thereof, or B.sup.1 and B.sup.2 optionally form a ring with a carbon atom bonded to B.sup.1 and B.

A resist underlayer film for lithography does not cause intermixing with a resist layer, has high dry etching resistance and high heat resistance, and generates a low amount of sublimate. A resist underlayer film-forming composition containing a polymer having a unit structure of the following formula (1):

##STR00001##

wherein A is a divalent group having at least two amino groups, the group is derived from a compound having a condensed ring structure and an aromatic group for substituting a hydrogen atom on the condensed ring, and B.sup.1 and B.sup.2 are each independently a hydrogen atom, an alkyl group, a benzene ring group, a condensed ring group, or a combination thereof, or B.sup.1 and B.sup.2 optionally form a ring with a carbon atom bonded to B.sup.1 and B.

A protective film forming composition which has a good mask (protection) function against a wet etching liquid and a high dry etching rate during processing of a semiconductor substrate and also has good coverage even for a stepped substrate, and from which a flat film can be formed due to a small difference in film thickness after being embedded; a protective film produced using the composition; a substrate with a resist pattern; and a method for producing a semiconductor device. This composition contains: (A) a compound having three or more carboxyl groups; (B) a resin or a monomer; and a solvent. The compound (A) having three or more carboxyl groups preferably has a ring structure. This ring structure is preferably selected from among an aromatic ring having 6-40 carbon atoms, an aliphatic ring having 3-10 carbon atoms, and a heterocyclic ring.

A protective film forming composition which has a good mask (protection) function against a wet etching liquid and a high dry etching rate during processing of a semiconductor substrate and also has good coverage even for a stepped substrate, and from which a flat film can be formed due to a small difference in film thickness after being embedded; a protective film produced using the composition; a substrate with a resist pattern; and a method for producing a semiconductor device. This composition contains: (A) a compound having three or more carboxyl groups; (B) a resin or a monomer; and a solvent. The compound (A) having three or more carboxyl groups preferably has a ring structure. This ring structure is preferably selected from among an aromatic ring having 6-40 carbon atoms, an aliphatic ring having 3-10 carbon atoms, and a heterocyclic ring.

A method for reducing resist consumption (RRC) is provided. The method includes treating a surface of a substrate using a RRC composition and forming a photoresist layer comprising a metal-containing material on the RRC composition treated surface. The RRC composition includes a solvent and an acid or a base. The solvent has a dispersion parameter between 10 and 25. The acid has an acid dissociation constant between -20 and 6.8. The base having an acid dissociation constant between 7.2 and 45.

A method for reducing resist consumption (RRC) is provided. The method includes treating a surface of a substrate using a RRC composition and forming a photoresist layer comprising a metal-containing material on the RRC composition treated surface. The RRC composition includes a solvent and an acid or a base. The solvent has a dispersion parameter between 10 and 25. The acid has an acid dissociation constant between -20 and 6.8. The base having an acid dissociation constant between 7.2 and 45.

In general, according to one embodiment, there is provided a semiconductor device including a substrate, an insulating layer formed above the substrate, and a conductive layer provided in the insulating layer. The insulating layer includes at least one cellulose fiber.

In general, according to one embodiment, there is provided a semiconductor device including a substrate, an insulating layer formed above the substrate, and a conductive layer provided in the insulating layer. The insulating layer includes at least one cellulose fiber.

Method for producing coating composition applied to patterned resist film in lithography process for solvent development to reverse pattern. The method including: step obtaining hydrolysis condensation product by hydrolyzing and condensing hydrolyzable silane in non-alcoholic hydrophilic solvent; step of solvent replacement wherein non-alcoholic hydrophilic solvent replaced with hydrophobic solvent for hydrolysis condensation product. Method for producing semiconductor device, including: step of applying resist composition to substrate and forming resist film; step of exposing and developing formed resist film; step applying composition obtained by above production method to patterned resist film obtained during or after development in step, forming coating film between patterns; step of removing patterned resist film by etching and reversing patterns. Production method that exposure is performed using ArF laser (with wavelength of 193 nm) or EUV (with wavelength of 13.5 nm). Production method that development is negative development with organic solvent.

Method for producing coating composition applied to patterned resist film in lithography process for solvent development to reverse pattern. The method including: step obtaining hydrolysis condensation product by hydrolyzing and condensing hydrolyzable silane in non-alcoholic hydrophilic solvent; step of solvent replacement wherein non-alcoholic hydrophilic solvent replaced with hydrophobic solvent for hydrolysis condensation product. Method for producing semiconductor device, including: step of applying resist composition to substrate and forming resist film; step of exposing and developing formed resist film; step applying composition obtained by above production method to patterned resist film obtained during or after development in step, forming coating film between patterns; step of removing patterned resist film by etching and reversing patterns. Production method that exposure is performed using ArF laser (with wavelength of 193 nm) or EUV (with wavelength of 13.5 nm). Production method that development is negative development with organic solvent.