Patent application number | Description | Published |
20080292990 | Electronic device manufacture - New methods are provided for manufacturing a semiconductor device. Preferred methods of the invention include depositing a photoresist on a semiconductor substrate surface followed by imaging and development of resist coating layer; applying a curable organic or inorganic composition over the resist relief image; etching to provide a relief image of the resist encased by the curable composition; and removing the resist material whereby the curable organic or inorganic composition remains in a relief image of increased pitch relative to the previously developed resist image. | 11-27-2008 |
20100297851 | COMPOSITIONS AND METHODS FOR MULTIPLE EXPOSURE PHOTOLITHOGRAPHY - Compositions for use in multiple exposure photolithography and methods of forming electronic devices using a multiple exposure lithographic process are provided. The compositions find particular applicability in semiconductor device manufacture for making high-density lithographic patterns. | 11-25-2010 |
20110143281 | COATING COMPOSITIONS FOR PHOTORESISTS - In one aspect, the present invention relates to coating compositions that comprise a resin component, wherein the predominant portion of the resin component comprising one or more resins that are at least substantially free of fluorine. Coating compositions of the invention are useful as photoresist overcoat layers, including in immersion lithography processing. | 06-16-2011 |
20120034562 | COATING COMPOSITION FOR USE WITH AN OVERCOATED PHOTORESIST - In a first aspect, organic coating compositions are provided, particularly spin-on antireflective coating compositions, that contain a polyester resin component. In a further aspect, coating compositions are provided that contain a resin component obtained by polymerization of a multi-hydroxy compound. Coating compositions of the invention are particularly useful employed in combination with an overcoated photoresist layer to manufacture integrated circuits. | 02-09-2012 |
20130209755 | SELF-ASSEMBLED STRUCTURES, METHOD OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a method of manufacturing self assembled structures that have lamellae or cylinders whose longitudinal axis is parallel or perpendicular to a surface upon which the self assembled structure is disposed. The method comprises disposing a random copolymer on the substrate to form a surface modification layer and disposing a block copolymer on the surface modification layer. The block copolymer is then subjected to etching. | 08-15-2013 |
20130306594 | POLYSTYRENE-POLYACRYLATE BLOCK COPOLYMERS, METHODS OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a block copolymer comprising a first block derived from a vinyl aromatic monomer; and a second block derived from an acrylate monomer; where a chi parameter that measures interactions between the first block and the second block is greater than or equal to about 0.05, when measured at 240° C. Disclosed herein too is a method comprising polymerizing a vinyl aromatic monomer to form a first block; and polymerizing a second block onto the first block to form a block copolymer; where the second block is derived by polymerizing an acrylate monomer; and where the block copolymer has a chi parameter of greater than or equal to about 0.05, when measured at 240° C.; where the chi parameter is a measure of interactions between the first block and the second block. | 11-21-2013 |
20140087066 | HARDMASK - Compositions containing certain organometallic oligomers suitable for use as spin-on, metal hardmasks are provided, where such compositions can be tailored to provide a metal oxide hardmask having a range of etch selectivity. Also provided are methods of depositing metal oxide hardmasks using the present compositions. | 03-27-2014 |
20140141375 | SELF-ASSEMBLED STRUCTURES, METHOD OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a composition comprising a graft block copolymer comprising a copolymer comprising a backbone polymer; and a first graft polymer that comprises a surface energy reducing moiety; the first graft polymer being grafted onto the backbone polymer; where the surface energy reducing moiety comprises a fluorine atom, a silicon atom, or a combination of a fluorine atom and a silicon atom; a photoacid generator; and a crosslinking agent. | 05-22-2014 |
20140141376 | SELF-ASSEMBLED STRUCTURES, METHOD OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a composition comprising a graft block copolymer comprising a first block polymer; the first block polymer comprising a backbone polymer and a first graft polymer; where the first graft polymer comprises a surface energy reducing moiety; and a second block polymer; the second block polymer being covalently bonded to the first block; wherein the second block comprises the backbone polymer and a second graft polymer; where the second graft polymer comprises a functional group that is operative to crosslink the graft block copolymer; a photoacid generator; and a crosslinking agent. | 05-22-2014 |
20140142249 | SELF-ASSEMBLED STRUCTURES, METHOD OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a graft block copolymer comprising a first block polymer; the first block polymer comprising a backbone polymer and a first graft polymer; where the first graft polymer comprises a surface energy reducing moiety; and a second block polymer; the second block polymer being covalently bonded to the first block; wherein the second block comprises the backbone polymer and a second graft polymer; where the second graft polymer comprises a functional group that is operative to crosslink the graft block copolymer. | 05-22-2014 |
20140142252 | SELF-ASSEMBLED STRUCTURES, METHOD OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a copolymer comprising a backbone polymer; and a first graft polymer that comprises a surface energy reducing moiety; the first graft polymer being grafted onto the backbone polymer; where the surface energy reducing moiety comprises a fluorine atom, a silicon atom, or a combination of a fluorine atom and a silicon atom. | 05-22-2014 |
20140202632 | HARDMASK SURFACE TREATMENT - Methods of treating the surface of a metal-containing hardmask used in the manufacture of semiconductors by contacting the hardmask surface with a composition capable of adjusting the water contact angle so as to substantially match that of subsequently applied organic coatings are provided. | 07-24-2014 |
20140206201 | HARDMASK SURFACE TREATMENT - Compositions suitable for forming oxymetal hardmask layers are provided. Methods of forming oxymetal hardmask layers using such compositions are also provided, where the surface of the oxymetal hardmask layer formed has a water contact angle substantially matched to that of subsequently applied organic coatings. | 07-24-2014 |
20140335454 | UNDERLAYER COMPOSITION AND METHOD OF IMAGING UNDERLAYER - A method of forming a pattern comprises diffusing an acid, generated by irradiating a portion of a photosensitive layer, into an underlayer comprising an acid sensitive copolymer comprising an acid decomposable group and an attachment group, to form an interpolymer crosslink and/or covalently bonded to the surface of the substrate. Diffusing comprises heating the underlayer and photosensitive layer. The acid sensitive group reacts with the diffused acid to form a polar region at the surface, in the shape of the pattern. The photosensitive layer is removed to forming a self-assembling layer comprising a block copolymer having a block with an affinity for the polar region, and a block having less affinity than the first. The first block forms a domain aligned to the polar region, and the second block forms a domain aligned to the first. Removing either the first or second domain exposes a portion of the underlayer. | 11-13-2014 |
20140335455 | UNDERLAYER COMPOSITION AND METHOD OF IMAGING UNDERLAYER COMPOSITION - A method of forming a pattern comprises diffusing an acid formed by irradiating a portion of a photosensitive layer, into an underlayer comprising an acid sensitive copolymer having acid decomposable groups and attachment groups covalently bonded to the surface of the substrate and/or forming an interpolymer crosslink. Diffusing comprises heating the underlayer and photosensitive layer. The acid sensitive group reacts with the diffused acid to form a polar region on the underlayer, with the shape of the pattern. The photosensitive layer is removed, forming a self-assembling layer comprising a block copolymer having a first block with an affinity for the polar region, and a second block having less affinity for the polar region. The first block forms a domain aligned to the polar region, and the second block forms another domain aligned to the first. Removing either domain exposes a portion of the underlayer. | 11-13-2014 |
20140377465 | NEUTRAL LAYER POLYMERS, METHODS OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a block copolymer comprising a first segment and a second segment that are covalently bonded to each other and that are chemically different from each other; where the first segment has a first surface free energy and where the second segment has a second surface free energy; and an additive copolymer; where the additive copolymer comprises a surface free energy reducing moiety where the surface free energy reducing moiety has a lower surface free energy than that of the first segment and the second segment; the additive copolymer further comprising one or more moieties having an affinity to the block copolymer; where the surface free energy reducing moiety is chemically different from the first segment and from the second segment; where the additive copolymer is not water miscible; and where the additive copolymer is not covalently bonded with the block copolymer. | 12-25-2014 |
20140377518 | ORIENTATION CONTROL LAYER POLYMERS, METHODS OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a method comprising disposing a first composition comprising a first block copolymer upon a substrate; where the first block copolymer comprises a first segment and a second segment that are covalently bonded to each other and that are chemically different from each other; where the first segment has a first surface free energy and where the second segment has a second surface free energy; and disposing a second composition comprising an second copolymer upon a free surface of the first block copolymer; where the second copolymer comprises a surface free energy reducing moiety; where the surface free energy reducing moiety has a lower surface free energy than the first surface free energy and the second surface free energy; the second copolymer further comprising one or more moieties having an affinity to the first block copolymer; where the surface free energy reducing moiety is chemically different from the first segment and from the second segment. | 12-25-2014 |
20140378592 | NEUTRAL LAYER POLYMERS, METHODS OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a block copolymer comprising a first segment and a second segment that are covalently bonded to each other and that are chemically different from each other; where the first segment has a first surface free energy and where the second segment has a second surface free energy; and an additive copolymer; where the additive copolymer comprises a surface free energy reducing moiety where the surface free energy reducing moiety has a lower surface free energy than that of the first segment and the second segment; the additive copolymer further comprising one or more moieties having an affinity to the block copolymer; where the surface free energy reducing moiety is chemically different from the first segment and from the second segment; where the additive copolymer is not water miscible; and where the additive copolymer is not covalently bonded with the block copolymer. | 12-25-2014 |
20150024522 | ORGANOMETAL MATERIALS AND PROCESS - Coating compositions are used to deposit films on electronic device substrates, which films are subjected to conditions that form an oxymetal precursor material layer on a matrix precursor material layer, and then such layers are cured to form a cured oxymetal layer disposed on a cured matrix layer. | 01-22-2015 |
20150024607 | ORGANOALUMINUM MATERIALS FOR FORMING ALUMINUM OXIDE LAYER FROM COATING COMPOSITION THAT CONTAINS ORGANIC SOLVENT - Organoaluminum coating compositions are used to deposit films on various substrates, which films are subsequently cured to form oxide films useful in a variety of manufacturing applications, particularly where a gas barrier may be used. | 01-22-2015 |
20150056793 | DOPING OF A SUBSTRATE VIA A DOPANT CONTAINING POLYMER FILM - Disclosed herein is a method for doping a substrate, comprising disposing a coating of a composition comprising a dopant-containing polymer and a non-polar solvent on a substrate; and annealing the substrate at a temperature of 750 to 1300° C. for 1 second to 24 hours to diffuse the dopant into the substrate; wherein the dopant-containing polymer is a polymer having a covalently bound dopant atom; wherein the dopant-containing polymer is free of nitrogen and silicon; and wherein the method is free of a step of forming an oxide capping layer over the coating prior to the annealing step. | 02-26-2015 |
20150072291 | SELF-ASSEMBLED STRUCTURES, METHOD OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a graft block copolymer comprising a first block polymer; the first block polymer comprising a backbone polymer and a first graft polymer; where the first graft polymer comprises a surface energy reducing moiety that comprises a halocarbon moiety, a silicon containing moiety, or a combination of a halocarbon moiety and a silicon containing moiety; a second block polymer; the second block polymer being covalently bonded to the first block; wherein the second block comprises the backbone polymer and a second graft polymer; where the second graft polymer comprises a functional group that is operative to undergo acid-catalyzed deprotection causing a change of solubility of the graft block copolymer in a developer solvent. | 03-12-2015 |
20150072292 | SELF-ASSEMBLED STRUCTURES, METHOD OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is a photoresist composition comprising a graft block copolymer; a solvent and a photoacid generator; where the graft block copolymer comprises a first block polymer; the first block polymer comprising a backbone polymer and a first graft polymer; where the first graft polymer comprises a surface energy reducing moiety that comprises a halocarbon moiety or a silicon containing moiety; and a second block polymer; the second block polymer being covalently bonded to the first block; wherein the second block comprises the backbone polymer and a second graft polymer; where the second graft polymer comprises a functional group that is operative to undergo deprotection and alter the solubility of the graft block copolymer; where the graft block copolymer has a bottle brush topology. | 03-12-2015 |