Patent application number | Description | Published |
20090117490 | POSITIVE RESIST COMPOSITION FOR IMMERSION LITHOGRAPHY AND METHOD FOR FORMING RESIST PATTERN - A positive resist composition for immersion lithography of the present invention includes a resin component (A) which exhibits increased alkali solubility under the action of acid; and an acid generator component (B) which generates acid on exposure, wherein the resin component (A) includes a cyclic main chain resin (A1) containing a fluorine atom and no acid-dissociable group, and a resin (A2) containing a structural unit (a) derived from an acrylic acid and no fluorine atom. | 05-07-2009 |
20090162788 | NOVEL COMPOUND AND METHOD OF PRODUCING THE SAME, ACID GENERATOR, RESIST COMPOSITION AND METHOD OF FORMING RESIST PATTERN - A resist composition including a base component (A) which exhibits changed solubility in an alkali developing solution under action of acid and an acid-generator component (B) which generates acid upon exposure, the acid-generator component (B) including an acid generator (B1) consisting of a compound represented by general formula (b1-1) shown below: | 06-25-2009 |
20100047724 | POSITIVE RESIST COMPOSITION AND METHOD OF FORMING RESIST PATTERN - A positive resist composition including: a base component (A) which exhibits increased solubility in an alkali developing solution under the action of acid; and an acid-generator component (B) which generates acid upon exposure; dissolved in an organic solvent (S), the organic solvent (S) including an alcohol-based organic solvent having a boiling point of at least 150° C.; and a method of forming a resist pattern including: applying the positive resist composition on a substrate on which a first resist pattern is formed to form a second resist film; and subjecting the second resist film to selective exposure and alkali developing to form a resist pattern. | 02-25-2010 |
20100075249 | POSITIVE RESIST COMPOSITION AND METHOD OF FORMING RESIST PATTERN - A positive resist composition including a resin component (A) which exhibits changed alkali solubility under action of acid and an acid-generator component (B) which generates acid upon exposure, the resin component (A) including a copolymer (A1) containing a structural unit (a1) represented by general formula (II) or a polymer (A2) consisting of a structural unit (a1) represented by general formula (II) (wherein R represents a hydrogen atom, a halogen atom, a lower alkyl group or a halogenated lower alkyl group; each of R | 03-25-2010 |
20100104973 | COMPOUND, ACID GENERATOR, RESIST COMPOSITION, AND METHOD OF FORMING RESIST PATTERN - There are provided a compound preferable as an acid generator for a resist composition, an acid generator including the compound, a resist composition containing the acid generator, and a method of forming a resist pattern using the resist composition, and the compound is represented by general formula (b1-12) shown below: | 04-29-2010 |
20100143844 | Resist composition for immersion exposure, method of forming resist pattern, and fluorine-containing resin - A resist composition for immersion exposure including: a base component (A) which exhibits changed solubility in an alkali developing solution under the action of acid; an acid-generator component (B) which generates acid upon exposure; and a fluorine-containing resin component (F); dissolved in an organic solvent (S), the fluorine-containing resin component (F) including a structural unit (f1) containing a fluorine atom, a structural unit (f2) containing a hydrophilic group-containing aliphatic hydrocarbon group, and a structural unit (f3) derived from an acrylate ester containing a tertiary alkyl group-containing group or an alkoxyalkyl group. | 06-10-2010 |
20100190108 | POSITIVE RESIST COMPOSITION AND METHOD OF FORMING RESIST PATTERN - A positive resist composition including:
| 07-29-2010 |
20110262872 | METHOD OF FORMING RESIST PATTERN AND RESIST COMPOSITION - There are provided a method of forming a resist pattern in which a resist pattern is formed on top of a substrate by using a chemically amplified resist composition and conducting patterning two or more times, the method being capable of reducing the extent of damage, caused by the second patterning, imposed upon the first resist pattern that is formed by the first patterning; as well as a resist composition that is useful for forming the first resist pattern in this method of forming a resist pattern. The method includes forming of a first resist pattern using a resist composition containing a thermal base generator as a chemically amplified resist composition during first patterning, and then conducting a hard bake for baking the first resist pattern under a bake condition such that a base is generated from the thermal base generator, prior to the second patterning. | 10-27-2011 |
20120116038 | RESIST COMPOSITION FOR IMMERSION EXPOSURE, METHOD OF FORMING RESIST PATTERN, AND FLUORINE-CONTAINING RESIN - A resist composition for immersion exposure including: a base component (A) which exhibits changed solubility in an alkali developing solution under the action of acid; an acid-generator component (B) which generates acid upon exposure; and a fluorine-containing resin component (F); dissolved in an organic solvent (S), the fluorine-containing resin component (F) including a structural unit (f1) containing a fluorine atom, a structural unit (f2) containing a hydrophilic group-containing aliphatic hydrocarbon group, and a structural unit (f3) derived from an acrylate ester containing a tertiary alkyl group-containing group or an alkoxyalkyl group. | 05-10-2012 |
20120164580 | NOVEL COMPOUND AND METHOD OF PRODUCING THE SAME, ACID GENERATOR, RESIST COMPOSITION AND METHOD OF FORMING RESIST PATTERN - A resist composition including a base component which exhibits changed solubility in an alkali developing solution under action of acid and an acid-generator component which generates acid upon exposure, the acid-generator including an acid generator consisting of a compound represented by general formula (b1-1) shown below: | 06-28-2012 |