Patent application number | Description | Published |
20080264682 | Substrate and negative imaging method for providing transparent conducting patterns - Provided are processes for making a transparent conducting pattern. The invention is also directed to electronic devices containing such transparent conducting patterns. Further provided is a substrate comprising a base film and a transparent conducting layer disposed on the base film; wherein the substrate has an OD of about 0.1 to 0.6 at 830 nm, and the transparent conducting layer comprises polyethylene dioxythiophene and has an OD of less than 0.1 in the range of 400 to 700 nm. | 10-30-2008 |
20080287621 | Catalysts for olefin polymerization or oligomerization - Novel iron and cobalt complexes of certain novel tricyclic ligands containing a “pyridine” ring and substituted with two imino groups are polymerization and/or oligomerization catalysts for olefins, especially ethylene. Depending on the exact structure of the ligand, and polymerization process conditions, products ranging from α-olefins to high polymers may be produced. The polymers, especially polyethylenes, are useful for films and as molding resins. | 11-20-2008 |
20090104557 | NEGATIVE IMAGING METHOD FOR PROVIDING A PATTERNED METAL LAYER HAVING HIGH CONDUCTIVITY - Disclosed is a method negative imaging method for making a metal pattern with high conductivity comprising providing a patterned substrate comprising a patterned catalyst layer on a base substrate by a thermal imaging method followed by plating to provide the metal pattern. The metal patterns provided are suitable for electrical devices including electromagnetic interference shielding devices and touchpad sensors. | 04-23-2009 |
20090104572 | COMPOSITION AND METHOD FOR PROVIDING A PATTERNED METAL LAYER HAVING HIGH CONDUCTIVITY - Disclosed is a method for making a metal pattern with high conductivity comprising providing a patterned substrate comprising a patterned catalyst layer on a base substrate by a thermal imaging method followed by plating to provide the metal pattern. The metal patterns provided are suitable for electrical devices including electromagnetic interference shielding devices and touchpad sensors. | 04-23-2009 |
20090143550 | Copolymers of vinyl-and allylsilanes - Ethylene and allyl- or vinylsilanes are efficiently copolymerized by certain late transition metal complexes containing selected bidentate or tridentate ligands. The resulting novel polymers may be crosslinked by moisture when vinylsilane contains groups bound to silicon which are hydrolyzable. The polymers are useful for wire coating, crosslinked foams, pipes, and other uses. | 06-04-2009 |
20090179198 | THIN FILM TRANSISTOR COMPRISING NOVEL CONDUCTOR AND DIELECTRIC COMPOSITIONS - The invention relates to thin film transistors comprising novel dielectric layers and novel electrodes comprising metal compositions that can be provided by a dry thermal transfer process. | 07-16-2009 |
20090297739 | METAL COMPOSITIONS, THERMAL IMAGING DONORS AND PATTERNED MULTILAYER COMPOSITIONS DERIVED THEREFROM - The invention provides metal compositions, including silver compositions, and thermal imaging donors prepared with the compositions. The donors are useful for thermal transfer patterning of a metal layers and optionally, a corresponding proximate portion of an additional transfer layer onto a thermal imaging receiver. The compositions are useful for dry fabrication of electronic devices. Also provided are patterned multilayer compositions comprising one or more base film(s), and one or more patterned metal layers, including EMI shields and touchpad sensors. | 12-03-2009 |
20100029469 | CATALYSTS FOR OLEFIN POLYMERIZATION - Transition metal complexes of selected monoanionic phosphine ligands, which also contain a selected Group 15 or 16 (IUPAC) element and which are coordinated to a Group 3 to 11 (IUPAC) transition metal or a lanthanide metal, are polymerization catalysts for the (co)polymerization of olefins such as ethylene and α-olefins, and the copolymerization of such olefins with polar group-containing olefins. These and other nickel complexes of neutral and monoanionic bidentate ligands copolymerize ethylene and polar comonomers, especially acrylates, at relatively high ethylene pressures and surprisingly high temperatures, and give good incorporation of the polar comonomers and good polymer productivity. These copolymers are often unique structures, which are described. | 02-04-2010 |
20100222531 | CATALYSTS FOR OLEFIN POLYMERIZATION - Transition metal complexes of selected monoanionic phosphine ligands, which also contain a selected Group 15 or 16 (IUPAC) element and which are coordinated to a Group 3 to 11 (IUPAC) transition metal or a lanthanide metal, are polymerization catalysts for the (co)polymerization of olefins such as ethylene and α-olefins, and the copolymerization of such olefins with polar group-containing olefins. These and other nickel complexes of neutral and monoanionic bidentate ligands copolymerize ethylene and polar comonomers, especially acrylates, at relatively high ethylene pressures and surprisingly high temperatures, and give good incorporation of the polar comonomers and good polymer productivity. These copolymers are often unique structures, which are described. | 09-02-2010 |
20100239793 | Thermally imageable dielectric layers, thermal transfer donors and receivers - The invention is related to thermal imageable dielectric layers and thermal transfer donors and receivers comprising dielectric layers. The thermal transfer donors are useful in making electronic devices by thermal transfer of dielectric layers having excellent resistivity, good transfer properties and good adhesion to a variety of receivers. | 09-23-2010 |
20100239794 | Donor elements and processes for thermal transfer of nanoparticle layers - The invention discloses processes for thermal transfer patterning of a nanoparticle layer and a corresponding proximate portion of a carrier layer, and optionally additional transfer layers, together onto a thermal imaging receiver. The invention is useful for dry fabrication of electronic devices. Additional embodiments of the invention include multilayer thermal imaging donors comprising in layered sequence: a base film, a carrier layer and a nanoparticle layer. The carrier layer can be a dielectric or conducting layer. When the carrier layer is a dielectric layer, the base film includes a light attenuating agent in the form of a dye or pigment. | 09-23-2010 |
20110151153 | POLYMERIC CONDUCTIVE DONOR - Provided are donor articles comprising a donor substrate and a conductive layer, wherein the conductive layer comprises (a) at least one electrically conductive polymer; (b) a binder comprising a polymer selected from the group consisting of poly(2-alkyl-2-oxazoline), poly(vinylpyrrolidone-co-vinyl acetate), polyvinyl acetal, poly(3-morpholinylethylene), poly(2,4-dimethyl-6-triazinylethylene), poly(N-1,2,4-triazolylethylene), poly(vinylsulfate), poly(vinylformamide), and poly[N-(p-sulfophenyl)imino-3-hydroxymethyl-1,4-phenyleneimino-1,4-phenylene] or a combination thereof; and (c) a polyanion. Also provided are methods of transferring at least a portion of an electrically conductive layer from such a donor article to a receiver, the patterned receivers and patterned donor articles made by such methods, electronic devices comprising the patterned receivers, and electronic devices comprising the patterned donor articles. | 06-23-2011 |
20110151214 | METAL COMPOSITIONS, THERMAL IMAGING DONORS AND PATTERNED MULTILAYER COMPOSITIONS DERIVED THEREFROM - Thermal imaging donors are useful for thermal transfer patterning of a metal layer and optionally, a corresponding proximate portion of an additional transfer layer onto a thermal imaging receiver. The compositions are useful for dry fabrication of electronic devices. Also provided are patterned multilayer compositions comprising one or more base film(s), and one or more patterned metal layers. These include electromagnetic interference shields and touchpad sensors. | 06-23-2011 |
20110287573 | ATYPICAL KESTERITE COMPOSITIONS - This invention relates to processes for making kesterite compositions with atypical Cu:Zn:Sn:S ratios and/or kesterite compositions with unusually small coherent domain sizes. This invention also relates to these kesterite compositions and their use in preparing CZTS films. | 11-24-2011 |
20120055554 | COPPER ZINC TIN CHALCOGENIDE NANOPARTICLES - This invention relates to nanoparticles of kesterite (copper zinc tin sulfide) and copper zinc tin selenide nanoparticles, inks and devices thereof, and processes to prepare same. The nano-particles are useful to for the absorber layer as a p-type semiconductor in a thin film solar cell application. | 03-08-2012 |
20120060928 | PROCESSES FOR PREPARING COPPER TIN SULFIDE AND COPPER ZINC TIN SULFIDE FILMS - This invention relates to processes for preparing films of CTS and CZTS and their selenium analogues on a substrate. Such films are useful in the preparation of photovoltaic devices. This invention also relates to processes for preparing coated substrates and for making photovoltaic devices. | 03-15-2012 |
20120061628 | COPPER TIN SULFIDE AND COPPER ZINC TIN SULFIDE INK COMPOSITIONS - This invention relates to ink compositions useful for preparing films of CTS and CZTS and their selenium analogues on a substrate. Such films are useful in the preparation of photovoltaic devices. | 03-15-2012 |
20120251802 | THERMALLY IMAGEABLE DIELECTRIC LAYERS, THERMAL TRANSFER DONORS AND RECEIVERS - The invention is related to thermal imageable dielectric layers and thermal transfer donors and receivers comprising dielectric layers. The thermal transfer donors are useful in making electronic devices by thermal transfer of dielectric layers having excellent resistivity, good transfer properties and good adhesion to a variety of receivers. | 10-04-2012 |
20120288987 | AQUEOUS PROCESS FOR PRODUCING CRYSTALLINE COPPER CHALCOGENIDE NANOPARTICLES, THE NANOPARTICLES SO-PRODUCED, AND INKS AND COATED SUBSTRATES INCORPORATING THE NANOPARTICLES - The present invention relates to aqueous processes to make metal chalcogenide nanoparticles that are useful precursors to copper zinc tin sulfide/selenide and copper tin sulfide/selenide. In addition, this invention provides processes for preparing crystalline particles from the metal chalcogenide nanoparticles, as well as processes for preparing inks from both the metal chalcogenide nanoparticles and the crystalline particles. | 11-15-2012 |
20130095602 | ATYPICAL KESTERITE COMPOSITIONS - This invention relates to processes for making kesterite compositions with atypical Cu:Zn:Sn:S ratios and/or kesterite compositions with unusually small coherent domain sizes. This invention also relates to these kesterite compositions and their use in preparing CZTS films. | 04-18-2013 |
20130125988 | CZTS/Se PRECURSOR INKS AND METHODS FOR PREPARING CZTS/Se THIN FILMS AND CZTS/Se-BASED PHOTOVOLTAIC CELLS - The present invention relates to coated binary and ternary chalcogenide nanoparticle compositions that can be used as copper zinc tin chalcogenide precursor inks. In addition, this invention relates to coated substrates comprising binary and ternary chalcogenide nanoparticle compositions and provides processes for manufacturing these coated substrates. This invention also relates to compositions of copper zinc tin chalcogenide thin films and photovoltaic cells comprising such films. In addition, this invention provides processes for manufacturing copper zinc tin chalcogenide thin films, as well as processes for manufacturing photovoltaic cells incorporating such films. | 05-23-2013 |
20130221489 | INKS AND PROCESSES TO MAKE A CHALCOGEN-CONTAINING SEMICONDUCTOR - The present invention relates to a process to make a chalcogen-containing semiconductor comprising copper, zinc and tin and to inks used in the process. The inks comprise at least one copper, zinc or tin source which is elemental particles of the particular metal. | 08-29-2013 |
20130233202 | INKS AND PROCESSES FOR PREPARING COPPER INDIUM GALLIUM SULFIDE/SELENIDE COATINGS AND FILMS - This invention relates to inks comprising molecular precursors to copper indium gallium sulfide/selenide (CIGS/Se) and a plurality of particles. The inks are useful for preparing coatings and films of CIGS/Se on substrates. Such films are useful in the preparation of photovoltaic devices. This invention also relates to processes for preparing coated substrates and films and also to processes for making photovoltaic devices. | 09-12-2013 |
20130264526 | MOLECULAR PRECURSORS AND PROCESSES FOR PREPARING COPPER INDIUM GALLIUM SULFIDE/SELENIDE COATINGS AND FILMS - This invention relates to molecular precursors and processes for preparing coated substrates and films of copper indium gallium sulfide/selenides (CIGS/Se). Such films are useful in the preparation of photovoltaic devices. This invention also relates to processes for preparing coated substrates and for making photovoltaic devices. | 10-10-2013 |
20130292800 | PROCESSES FOR PREPARING COPPER INDIUM GALLIUM SULFIDE/SELENIDE FILMS - This invention relates to processes for preparing films of copper indium gallium sulfide/selenides (CIGS/Se) on substrates via inks comprising CIGS/Se microparticles and a plurality of particles. This invention relates to inks, coated layers, and film compositions. Such films are useful in the preparation of photovoltaic devices. This invention also relates to processes for preparing coated substrates and for making photovoltaic devices. | 11-07-2013 |
20140048137 | Process for preparing coated substrates and photovoltaic devices - This invention provides compositions and the processes for preparing the compositions that are useful for preparing films of CZTS and its selenium analogues on a substrate. Such films are useful in preparing photovoltaic devices. This invention also provides processes for preparing a semiconductor layer comprising CZTS/Se microparticles embedded in an inorganic matrix. This invention also provides processes for making a photovoltaic devices and the photovoltaic devices so produced. | 02-20-2014 |
20140144500 | SEMICONDUCTOR INKS FILMS, COATED SUBSTRATES AND METHODS OF PREPARATION - This invention provides compositions useful for preparing films of CZTS and its selenium analogues on a coated substrate. This invention also provides processes for preparing films and coated substrates comprising CZTS/Se microparticles embedded in an inorganic matrix. This invention also provides processes for preparing photovoltaic cells comprising films of CZTS and its selenium analogues. | 05-29-2014 |