Patent application number | Description | Published |
20080230514 | METHOD OF PRODUCING NANOPATTERNED TEMPLATES - Nanopatterned substrates can be prepared by a method that includes forming a block copolymer film on a substrate, annealing the block copolymer film, surface reconstructing the annealed block copolymer film, coating an etch-resistant layer on the surface reconstructed block copolymer film, etching the resist-coated block copolymer film to create an etched article comprising a nanopatterned substrate, and separating the etch-resistant layer and the block copolymer film from the nanopatterned substrate. The method is applicable to a wide variety of substrate materials, avoids any requirement for complicated procedures to produce long-range order in the block copolymer film, and avoids any requirement for metal functionalization of the block copolymer. | 09-25-2008 |
20090071537 | INDEX TUNED ANTIREFLECTIVE COATING USING A NANOSTRUCTURED METAMATERIAL - An anti-reflective layer solar cell/optical medium is provided by nanostructuring the surface of the optical material into which light transmission is desired. The surface of the optical material is etched through a nanoporous polymer film etch mask to transfer the porous pattern to the optical material. The resultant nanostructured layer is an optical metamaterial since it contains structural features much smaller than the wavelength of light and the presence of these structural features change the effective index of refraction by controlling the degree of porosity in the nanostructured layer and also by controlling the thickness of the porous layer. | 03-19-2009 |
20100060109 | NANOTUBES, NANORODS AND NANOWIRES HAVING PIEZOELECTRIC AND/OR PYROELECTRIC PROPERTIES AND DEVICES MANUFACTURED THEREFROM - Disclosed herein is a device comprising a pair of electrodes; and a nanotube, a nanorod and/or a nanowire; the nanotube, nanorod and/or nanowire comprising a piezoelectric and/or pyroelectric polymeric composition; the pair of electrodes being in electrical communication with opposing surfaces of the nanotube, nanorod and/or a nanowire; the pair of electrodes being perpendicular to a longitudinal axis of the nanotube, nanorod and/or a nanowire. | 03-11-2010 |
20100075116 | SELF-ASSEMBLY OF BLOCK COPOLYMERS ON TOPOGRAPHICALLY PATTERNED POLYMERIC SUBSTRATES - Highly-ordered block copolymer films are prepared by a method that includes forming a polymeric replica of a topographically patterned crystalline surface, forming a block copolymer film on the topographically patterned surface of the polymeric replica, and annealing the block copolymer film. The resulting structures can be used in a variety of different applications, including the fabrication of high density data storage media. The ability to use flexible polymers to form the polymeric replica facilitates industrial-scale processes utilizing the highly-ordered block copolymer films. | 03-25-2010 |
20100086801 | METHOD OF PRODUCING NANOPATTERNED ARTICLES, AND ARTICLES PRODUCED THEREBY - Nanopatterned surfaces are prepared by a method that includes forming a block copolymer film on a substrate, annealing and surface reconstructing the block copolymer film to create an array of cylindrical voids, depositing a metal on the surface-reconstructed block copolymer film, and heating the metal-coated block copolymer film to redistribute at least some of the metal into the cylindrical voids. When very thin metal layers and low heating temperatures are used, metal nanodots can be formed. When thicker metal layers and higher heating temperatures are used, the resulting metal structure includes nanoring-shaped voids. The nanopatterned surfaces can be transferred to the underlying substrates via etching, or used to prepare nanodot- or nanoring-decorated substrate surfaces. | 04-08-2010 |
20100112308 | METHOD OF PRODUCING NANOPATTERNED ARTICLES, AND ARTICLES PRODUCED THEREBY - A nanopatterned surface is prepared by forming a block copolymer film on a miscut crystalline substrate, annealing the block copolymer film, then reconstructing the surface of the annealed block copolymer film. The method creates a well-ordered array of voids in the block copolymer film that is maintained over a large area. The nanopatterned block copolymer films can be used in a variety of different applications, including the fabrication of high density data storage media. | 05-06-2010 |
20120211871 | METHOD OF PRODUCING NANOPATTERNED ARTICLES, AND ARTICLES PRODUCED THEREBY - A nanopatterned surface is prepared by forming a block copolymer film on a miscut crystalline substrate, annealing the block copolymer film, then reconstructing the surface of the annealed block copolymer film The method creates a well-ordered array of voids in the block copolymer film that is maintained over a large area. The nanopatterned block copolymer films can be used in a variety of different applications, including the fabrication of high density data storage media. | 08-23-2012 |
20120276346 | SELF-ASSEMBLY OF BLOCK COPOLYMERS ON TOPOGRAPHICALLY PATTERNED POLYMERIC SUBSTRATES - Highly-ordered block copolymer films are prepared by a method that includes forming a polymeric replica of a topographically patterned crystalline surface, forming a block copolymer film on the topographically patterned surface of the polymeric replica, and annealing the block copolymer film. The resulting structures can be used in a variety of different applications, including the fabrication of high density data storage media. The ability to use flexible polymers to form the polymeric replica facilitates industrial-scale processes utilizing the highly-ordered block copolymer films. | 11-01-2012 |
20120282435 | Nanostructured Silicon with Useful Thermoelectric Properties - The invention provides for a nanostructured silicon or holey silicon (HS) that has useful thermoelectric properties. The invention also provides for a device comprising the nanostructured silicon or HS. The HS can be placed between two electrodes and used for thermoelectric power generation or thermoelectric cooling. | 11-08-2012 |
20120301677 | METHOD OF FORMING ORIENTED BLOCK COPOLYMER LINE PATTERNS, BLOCK COPOLYMER LINE PATTERNS FORMED THEREBY, AND THEIR USE TO FORM PATTERNED ARTICLES - A block copolymer film having a line pattern with a high degree of long-range order is formed by a method that includes forming a block copolymer film on a substrate surface with parallel facets, and annealing the block copolymer film to form an annealed block copolymer film having linear microdomains parallel to the substrate surface and orthogonal to the parallel facets of the substrate. The line-patterned block copolymer films are useful for the fabrication of magnetic storage media, polarizing devices, and arrays of nanowires. | 11-29-2012 |
20130302632 | METHOD OF PRODUCING NANOPATTERNED ARTICLES, AND ARTICLES PRODUCED THEREBY - Nanopatterned surfaces are prepared by a method that includes forming a block copolymer film on a substrate, annealing and surface reconstructing the block copolymer film to create an array of cylindrical voids, depositing a metal on the surface-reconstructed block copolymer film, and heating the metal-coated block copolymer film to redistribute at least some of the metal into the cylindrical voids. When very thin metal layers and low heating temperatures are used, metal nanodots can be formed. When thicker metal layers and higher heating temperatures are used, the resulting metal structure includes nanoring-shaped voids. The nanopatterned surfaces can be transferred to the underlying substrates via etching, or used to prepare nanodot- or nanoring-decorated substrate surfaces. | 11-14-2013 |
20140099445 | METHOD FOR PRODUCING A FILM HAVING A NANO-STRUCTURE ON THE SURFACE OF THE FILM - A method is provided for producing easily a membrane (film) having a micro surface structure (porous structure, fibrous structure and the like) in nano-order. The method for producing a film having a nano-structure on the surface of the film, includes the steps of: (1) coating a substrate with a solution containing a copolymer including two or more homopolymer segments and an organic solvent having boiling point of 82° C. or more and a dielectric constant of 30 or less to form a membrane; (2) providing the membrane with a water vapor-containing gas having a relative humidity of 50% or more to age the membrane; and (3) drying the membrane to obtain the film. | 04-10-2014 |
20140175579 | METHOD OF PRODUCING NANOPATTERNED ARTICLES, AND ARTICLES PRODUCED THEREBY - A nanopatterned surface is prepared by forming a block copolymer film on a miscut crystalline substrate, annealing the block copolymer film, then reconstructing the surface of the annealed block copolymer film The method creates a well-ordered array of voids in the block copolymer film that is maintained over a large area. The nanopatterned block copolymer films can be used in a variety of different applications, including the fabrication of high density data storage media. | 06-26-2014 |