Patent application number | Description | Published |
20090081578 | METHOD OF PREPARING SILVER CARBOXYLATE SOAPS - Silver salts of long chain carboxylic acids are prepared from long chain carboxylic acids by sequential addition of at least two different alkali metal hydroxides, one of which is lithium hydroxide, followed by converting the mixture of alkali metal carboxylates to silver carboxylates. Photothermographic materials prepared from such silver carboxylates display improved D | 03-26-2009 |
20110232945 | TRANSPARENT CONDUCTIVE FILMS, ARTICLES, AND METHODS - Transparent conductive films, articles made from them, and methods of making them are disclosed. Some transparent conductive films include flexible glass substrates and conductive layers containing metal nanoparticles. Others include at least one layer with cell walls that contain metal nanorods or conductive nanowires. Still others include a substrate with a coating disposed on it, with the coating including conductive components and photopolymers. Such films are useful in such articles as electronic displays, touch screens, and the like. | 09-29-2011 |
20120126181 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Preparation methods, compositions, and articles useful for electronic and optical applications. Methods for reducing metal ions to metals in the presence of IUPAC Group 14 elements in their +2 oxidation state, the metal products, and articles comprising the metal products. Compositions comprising metal nanowires and ions of IUPAC Group 14 elements, the metal nanowires, and articles comprising the metal nanowires. | 05-24-2012 |
20120128529 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanowire preparation methods, compositions, and articles are disclosed. Such nanowires may be thicker than other nanowires and may be useful in devices requiring high electrical current densities. | 05-24-2012 |
20120148436 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies relative to previous methods. Such materials are useful in electronic applications. | 06-14-2012 |
20120148438 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies relative to previous methods. Such materials are useful in electronic applications. | 06-14-2012 |
20120148442 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies and reduced nitric oxide co-production relative to previous methods. Such materials are useful in electronic applications. | 06-14-2012 |
20120148443 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies relative to previous methods. Such materials are useful in electronic applications. | 06-14-2012 |
20120148844 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies relative to previous methods. Such materials are useful in electronic applications. | 06-14-2012 |
20120148861 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies relative to previous methods. Such materials are useful in electronic applications. | 06-14-2012 |
20120183434 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Methods of producing metal nanowires, compositions, and articles are disclosed. Such methods allow production of metal nanowires with reproducibly uniform diameter and length, even in the presence of catalyst concentration variation. Such metal nanowires are useful for electronics applications. | 07-19-2012 |
20120183435 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Methods of producing metal nanowires, compositions, and articles are disclosed. Such methods allow production of metal nanowires with reproducibly uniform diameter and length, even in the presence of catalyst concentration variation. Such metal nanowires are useful for electronics applications. | 07-19-2012 |
20120247272 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies relative to previous methods. Such materials are useful in electronic applications. | 10-04-2012 |
20120294755 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Preparation methods, compositions, and articles useful for electronic and optical applications are disclosed. Such methods reduce metal ions to metal nanowires in the presence of bromide ions, IUPAC Group 14 elements in their +2 oxidation state, and optionally chloride ions. The product nanowires are useful in electronics applications. | 11-22-2012 |
20120297927 | BRANCHED NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Branched nanowire preparation methods, compositions, and articles are disclosed. Such branched nanowires are useful for electronics and optical applications. | 11-29-2012 |
20120301348 | NOVEL SOLVENTS FOR METAL ION REDUCTION METHODS, COMPOSITIONS, AND ARTICLES - Methods employing novel solvents are disclosed for making metal nanostructures including metal nanowires. Such methods can be carried out at lower temperatures and higher production rates than those employing ethylene glycol. The products of these methods are useful for electronics applications. | 11-29-2012 |
20120301349 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Methods of preparing metal nanowire are disclosed that employ quaternary phosphonium salts. Such processes can produce long and thin nanowires. Compositions and articles comprising such nanowires are useful in electronics applications. | 11-29-2012 |
20120301350 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Nanowire preparation methods, compositions, and articles are disclosed. Such methods which reduce metal ions to metal nanowires in the presence of aluminum or gallium ions, are capable of producing long, narrow, nanowires useful for electronics and optical applications. | 11-29-2012 |
20120301352 | METAL ION CATALYSIS OF METAL ION REDUCTION, METHODS, COMPOSITIONS, AND ARTICLES - Methods for preparing metal nanowires in the presence of IUPAC Group 15 ions are disclosed. Such methods are capable of producing high aspect ratio nanowires that are suitable for electronics applications. | 11-29-2012 |
20120301353 | METAL ION CATALYSIS OF METAL ION REDUCTION, METHODS, COMPOSITIONS, AND ARTICLES - Nanowire preparation methods, compositions, and articles are disclosed. Such methods which reduce metal ions to metal nanowires in the presence complexes comprising metal-metal bonds, are capable of producing long, narrow, nanowires useful for electronics and optical applications. | 11-29-2012 |
20120301742 | ZERO-VALENT CATALYSIS OF METAL ION REDUCTION METHODS, COMPOSITIONS, AND ARTICLES - Nanowire preparation methods, compositions, and articles are disclosed. Such methods, which reduce metal ions to metal nanowires in the presence of zero-valent metal atoms, are capable of producing long, narrow, nanowires useful for electronics and optical applications. | 11-29-2012 |
20130186239 | NANOWIRE RING PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Methods and compositions are disclosed for preparation of both open and closed nanowire metal rings. Such rings may be used in conductive layers of electronic devices. | 07-25-2013 |
20130230737 | COPPER NANOWIRE PREPARATION METHODS AND COMPOSITIONS - Methods are disclosed for preparing copper nanowires that do not rely on highly reactive reagents, highly corrosive solutions, high temperatures, or long reaction times. Nanowires produced from such methods are free of large attached nanoparticles that have accompanied previously disclosed copper nanowires. Such nanowires are useful for electronics applications. | 09-05-2013 |
20130266898 | TRANSPARENT CONDUCTIVE FILMS, ARTICLES, AND METHODS - Transparent conductive films, articles made from them, and methods of making them are disclosed. Some transparent conductive films include flexible glass substrates and conductive layers containing metal nanoparticles. Others include at least one layer with cell walls that contain metal nanorods or conductive nanowires. Still others include a substrate with a coating disposed on it, with the coating including conductive components and photopolymers. Such films are useful in such articles as electronic displays, touch screens, and the like. | 10-10-2013 |
20130273357 | TRANSPARENT CONDUCTIVE FILMS, ARTICLES, AND METHODS - Transparent conductive films, articles made from them, and methods of making them are disclosed. Some transparent conductive films include flexible glass substrates and conductive layers containing metal nanoparticles. Others include at least one layer with cell walls that contain metal nanorods or conductive nanowires. Still others include a substrate with a coating disposed on it, with the coating including conductive components and photopolymers. Such films are useful in such articles as electronic displays, touch screens, and the like. | 10-17-2013 |
20130340570 | NANOWIRE PREPARATION, METHODS, COMPOSITIONS, AND ARTICLES - Nanowire preparation methods, compositions, and articles are disclosed. Such nanowires may be thicker than other nanowires and may be useful in devices requiring high electrical current densities. | 12-26-2013 |
20140017483 | TRANSPARENT CONDUCTIVE FILMS, ARTICLES, AND METHODS - Transparent conductive films, articles made from them, and methods of making them are disclosed. Some transparent conductive films include flexible glass substrates and conductive layers containing metal nanoparticles. Others include at least one layer with cell walls that contain metal nanorods or conductive nanowires. Still others include a substrate with a coating disposed on it, with the coating including conductive components and photopolymers. Such films are useful in such articles as electronic displays, touch screens, and the like. | 01-16-2014 |
20140023552 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Methods of producing metal nanowires, compositions, and articles are disclosed. Such methods allow production of metal nanowires with reproducibly uniform diameter and length, even in the presence of catalyst concentration variation. Such metal nanowires are useful for electronics applications. | 01-23-2014 |
20140119980 | NOVEL SOLVENTS FOR METAL ION REDUCTION METHODS, COMPOSITIONS, AND ARTICLES - Methods employing novel solvents are disclosed for making metal nanostructures including metal nanowires. Such methods can be carried out at lower temperatures and higher production rates than those employing ethylene glycol. The products of these methods are useful for electronics applications. | 05-01-2014 |
20140322069 | NANOWIRE PREPARATION METHODS, COMPOSITIONS, AND ARTICLES - Methods of producing metal nanowires, compositions, and articles are disclosed. Such methods allow production of metal nanowires with reproducibly uniform diameter and length, even in the presence of catalyst concentration variation. Such metal nanowires are useful for electronics applications. | 10-30-2014 |
20140373349 | LASER DIODE PATTERNING OF TRANSPARENT CONDUCTIVE FILMS - Methods of patterning metal nanowire containing transparent conductive films using laser diodes, where the films comprise a radiation absorbing substance, such as an infrared absorbing substance or an ultraviolet absorbing substance. The use of laser diodes can decrease the time and costs associated with patterning transparent conductive films comprising nanowires, such as silver nanowires. | 12-25-2014 |