Patent application number | Description | Published |
20090202945 | FLUORINE-CONTAINING POLYMER, PURIFICATION METHOD, AND RADIATION-SENSITIVE RESIN COMPOSITION - An object of the present invention is to provide a novel fluorine-containing polymer, a radiation-sensitive resin composition for liquid immersion lithography which contains the fluorine-containing polymer, which leads to a pattern having an excellent shape and excellent depth of focus, wherein the amount of an eluted component in a liquid for liquid immersion lithography such as water that comes in contact with the resist during exposure in liquid immersion lithography is little, and which provides a larger receding contact angle between the resist film and the liquid for liquid immersion lithography such as water, and a method for purifying the fluorine-containing polymer. The present resin composition comprises a novel fluorine-containing polymer (A) containing repeating units represented by the general formulae (1) and (2) and having Mw of 1,000-50,000, a resin (B) having an acid-unstable group, a radiation-sensitive acid generator (C), a nitrogen-containing compound (D) and a solvent (E). | 08-13-2009 |
20100068650 | POSITIVE-WORKING RADIATION-SENSITIVE COMPOSITION AND METHOD FOR RESIST PATTERN FORMATION USING THE COMPOSITION - A method of patterning using double exposure patterning in a liquid immersion lithographic process is provided. The patterning method comprises a step of forming a first pattern on a substrate using a first resist layer forming composition, a step of making the first pattern inactive, a step of forming a second pattern on a substrate on which a pattern has been formed using a second resist layer forming composition and exposing the second resist layer to radiation, and a step of developing the exposed resist layer to form a second pattern in the space area of the first pattern. The first resist layer forming composition contains a cross-linking agent which accelerates conversion of the first layer from positive-working to negative-working. | 03-18-2010 |
20100255416 | COMPOSITION FOR FORMING UPPER LAYER FILM FOR IMMERSION EXPOSURE, UPPER LAYER FILM FOR IMMERSION EXPOSURE, AND METHOD OF FORMING PHOTORESIST PATTERN - The object of the invention is to provide a composition for forming an upper layer film for immersion exposure capable of forming an upper layer film effectively inhibited from developing defects through an immersion exposure process, such as a watermark defect and dissolution residue defect. Also provided are an upper layer film for immersion exposure and a method of forming a resist pattern. The composition for forming an upper layer film includes a resin ingredient and a solvent. The resin ingredient includes a resin (A) having at least one kind of repeating units selected among those represented by the formulae (1-1) to (1-3) and at least either of the two kinds of repeating units represented by the formulae (2-1) and (2-2). (1-1) (1-2) (1-3) (2-1) (2-2) [In the formulae, R | 10-07-2010 |
20100310988 | RESIST PATTERN-FORMING METHOD AND RESIST PATTERN MINIATURIZING RESIN COMPOSITION - A resist pattern-forming method includes forming a first resist pattern using a first positive-tone radiation-sensitive resin composition. A resist pattern-miniaturizing resin composition is applied to the first resist pattern. The resist pattern-miniaturizing resin composition applied to the first resist pattern is baked and developed to form a second resist pattern that is miniaturized from the first resist pattern. A resist pattern-insolubilizing resin composition is applied to the second resist pattern. The resist pattern-insolubilizing resin composition applied to the second resist pattern is baked and washed to form a third resist pattern that is insoluble in a developer and a second positive-tone radiation-sensitive resin composition. A second resist layer is formed on the third resist pattern using the second positive-tone radiation-sensitive resin composition. The second resist layer is exposed and developed to form a fourth resist pattern. | 12-09-2010 |
20110104612 | POSITIVE-TYPE RADIATION-SENSITIVE COMPOSITION, AND RESIST PATTERN FORMATION METHOD - 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. | 05-05-2011 |
20110111349 | RESIN COMPOSITION FOR MAKING RESIST PATTERN INSOLUBLE, AND METHOD FOR FORMATION OF RESIST PATTERN BY USING THE SAME - A resist pattern-insolubilizing resin composition is used in a resist pattern-forming method. The resist pattern-insolubilizing resin composition includes solvent and a resin. The resin includes a first repeating unit that includes a hydroxyl group in its side chain and at least one of a second repeating unit derived from a monomer shown by a following formula (1-1) and a third repeating unit derived from a monomer shown by a following formula (1-2), | 05-12-2011 |
20130164695 | METHOD FOR FORMING PATTERN - A method for forming a pattern includes providing a first positive-working radiation-sensitive resin composition on a substrate to form a first resist layer. The first positive-working radiation-sensitive resin composition includes a crosslinking agent, a polymer containing an acid-unstable group and not containing a crosslinking group, a radiation-sensitive acid generator, and a solvent. The first resist layer is exposed selectively to radiation, and developed to form a first resist pattern. The first resist pattern is made inactive to radiation, or insolubilized in an alkaline developer or in a second positive-working radiation-sensitive resin composition. The second positive-working radiation-sensitive resin composition is provided on the substrate to form a second resist layer. The second resist layer is exposed selectively to radiation, and developed to form a second resist pattern in the space area of the first resist pattern. | 06-27-2013 |
20130216961 | COMPOSITION FOR FORMING UPPER LAYER FILM FOR IMMERSION EXPOSURE, UPPER LAYER FILM FOR IMMERSION EXPOSURE, AND METHOD OF FORMING PHOTORESIST PATTERN - A composition for forming an upper layer film includes a solvent and a resin component including a first resin having a first repeating unit and a second repeating unit. The first repeating unit is a repeating unit represented by a formula (1-1), a repeating unit represented by a formula (1-2), a repeating unit represented by a formula (1-3), or a combination thereof. The second repeating unit is a repeating unit represented by a formula (2-1), a repeating unit represented by a formula (2-2), or both thereof. The composition is to be used for forming the upper layer film in liquid immersion lithography. | 08-22-2013 |
20140162190 | FLUORINE-CONTAINING POLYMER, PURIFICATION METHOD, AND RADIATION-SENSITIVE RESIN COMPOSITION - A fluorine-containing polymer for use in a radiation-sensitive resin composition is used for forming a photoresist film in a process of forming a resist pattern, including a liquid immersion lithographic process in which radiation is emitted through a liquid having a refractive index larger than the refractive index of air at a wavelength of 193 nm, and being present between a lens and the photoresist film. The fluorine-containing polymer has a weight average molecular weight determined by gel permeation chromatography in the range from 1,000 to 50,000 and a receding contact angle with water and the photoresist film formed therefrom is 70° or more. | 06-12-2014 |