Patent application number | Description | Published |
20110030581 | POLYMERIC PRECURSORS FOR AIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110030582 | POLYMERIC PRECURSORS FOR CAIGAS ALUMINUM-CONTAINING PHOTOVOLTAICS - This invention relates to compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. In particular, this invention relates to molecular precursor compounds and precursor materials for preparing photovoltaic layers including CAIGAS. | 02-10-2011 |
20110030755 | METHODS FOR PHOTOVOLTAIC ABSORBERS WITH CONTROLLED GROUP 11 STOICHIOMETRY - This invention includes processes for making a photovoltaic absorber layer having a predetermined stoichiometry on a substrate by depositing a precursor having the predetermined stoichiometry onto the substrate and converting the deposited precursor into a photovoltaic absorber material. This invention further includes processes for making a photovoltaic absorber layer having a predetermined stoichiometry on a substrate by (a) providing a polymeric precursor having the predetermined stoichiometry; (b) providing a substrate; (c) depositing the precursor onto the substrate; and (d) heating the substrate. | 02-10-2011 |
20110030768 | METHODS FOR PHOTOVOLTAIC ABSORBERS WITH CONTROLLED GROUP 13 STOICHIOMETRY - This invention includes processes for making a photovoltaic absorber layer having a predetermined stoichiometry on a substrate by depositing a precursor having the predetermined stoichiometry onto the substrate and converting the deposited precursor into a photovoltaic absorber material. This invention further includes processes for making a photovoltaic absorber layer having a predetermined stoichiometry on a substrate by (a) providing a polymeric precursor having the predetermined stoichiometry; (b) providing a substrate; (c) depositing the precursor onto the substrate; and (d) heating the substrate. | 02-10-2011 |
20110030784 | METHODS AND MATERIALS FOR CAIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to processes for materials using compounds, polymeric compounds, and compositions for semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. This invention further relates to thin film CAIGS, CAIS, and CAGS materials made by a process of providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C. in an inert atmosphere. | 02-10-2011 |
20110030785 | METHODS AND MATERIALS FOR CAIGAS ALUMINUM-CONTAINING PHOTOVOLTAICS - This invention relates to methods for materials using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. This invention further relates to thin film CA(I,G,A)S, CAIGAS, A(I,G,A)S, AIGAS, C(I,G,A)S, and CIGAS materials made by a process of providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C. | 02-10-2011 |
20110030786 | METHODS FOR CIS AND CIGS PHOTOVOLTAICS - This invention relates to methods for making materials using a range of compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials for photovoltaic applications including devices and systems for energy conversion and solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. This invention further relates to methods for making a CIGS, CIS or CGS material by providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C. | 02-10-2011 |
20110030787 | METHODS FOR AIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to methods for making materials using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. This invention further relates to methods for making AIGS, AIS or AGS materials by providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C. | 02-10-2011 |
20110030788 | METHODS FOR CAIGAS ALUMINUM-CONTAINING PHOTOVOLTAICS - This invention relates to methods for making materials using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. This invention further relates to methods for making CA(I,G,A)S, CAIGAS, A(I,G,A)S, AIGAS, C(I,G,A)S, and CIGAS materials by providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C. | 02-10-2011 |
20110030795 | METHODS AND ARTICLES FOR CIS AND CIGS PHOTOVOLTAICS - This invention relates to methods and articles using a range of compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials for photovoltaic applications including devices and systems for energy conversion and solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110030796 | METHODS AND ARTICLES FOR CAIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to methods and articles using compounds, polymeric compounds, and compositions for semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110030797 | METHODS AND ARTICLES FOR AIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to methods and articles using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110030798 | METHODS AND ARTICLES FOR CAIGAS ALUMINUM-CONTAINING PHOTOVOLTAICS - This invention relates to methods and articles using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. In particular, this invention relates to molecular precursor compounds and precursor materials for preparing photovoltaic layers including CAIGAS. | 02-10-2011 |
20110030799 | METHODS AND MATERIALS FOR CIS AND CIGS PHOTOVOLTAICS - This invention relates to processes for materials using a range of compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials for photovoltaic applications including devices and systems for energy conversion and solar cells. In particular, this invention relates to CIGS, CIS or CGS materials made by a process of providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate, thereby producing a material. | 02-10-2011 |
20110030800 | METHODS FOR CAIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to methods for making materials using compounds, polymeric compounds, and compositions for semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. This invention further relates to methods for making a CAIGS, CAIS or CAGS material by providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C. | 02-10-2011 |
20110031444 | POLYMERIC PRECURSORS FOR CIS AND CIGS PHOTOVOLTAICS - This invention relates to a range of compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials for photovoltaic applications including devices and systems for energy conversion and solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110031445 | PROCESSES FOR POLYMERIC PRECURSORS FOR CAIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to processes for compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110031453 | PROCESSES FOR POLYMERIC PRECURSORS FOR CAIGAS ALUMINUM-CONTAINING PHOTOVOLTAICS - This invention relates to processes for compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. In particular, this invention relates to molecular precursor compounds and precursor materials for preparing photovoltaic layers including CAIGAS. | 02-10-2011 |
20110034605 | POLYMERIC PRECURSORS FOR CAIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110034640 | PROCESSES FOR POLYMERIC PRECURSORS FOR CIS AND CIGS PHOTOVOLTAICS - This invention relates to processes for a range of compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials for photovoltaic applications including devices and systems for energy conversion and solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110034667 | PROCESSES FOR POLYMERIC PRECURSORS FOR AIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to processes for compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to polymeric precursor compounds and precursor materials for preparing photovoltaic layers. A compound may contain repeating units {M | 02-10-2011 |
20110041918 | METHODS AND MATERIALS FOR AIGS SILVER-CONTAINING PHOTOVOLTAICS - This invention relates to methods for materials using compounds, polymeric compounds, and compositions used to prepare semiconductor and optoelectronic materials and devices including thin film and band gap materials. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, transparent conductive materials, as well as devices and systems for energy conversion, including solar cells. This invention further relates to thin film AIGS, AIS, and AGS materials made by a process of providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate at a temperature of from about 20° C. to about 650° C. | 02-24-2011 |
20110146532 | MOLECULAR PRECURSORS FOR OPTOELECTRONICS - This invention relates to compounds and compositions used to prepare semiconductor and optoelectronic materials and devices. This invention provides a range of compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to molecular precursor compounds and precursor materials for preparing photovoltaic layers. | 06-23-2011 |
20110146764 | MOLECULAR PRECURSOR METHODS AND ARTICLES FOR OPTOELECTRONICS - This invention relates to compounds and compositions used to prepare semiconductor and optoelectronic materials and devices. This invention provides a range of compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to molecular precursor compounds, precursor materials and methods for preparing photovoltaic layers. | 06-23-2011 |
20110146789 | MOLECULAR PRECURSOR METHODS AND MATERIALS FOR OPTOELECTRONICS - This invention relates to compounds and compositions used to prepare semiconductor and optoelectronic materials and devices. This invention provides a range of compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to molecular precursor compounds, precursor materials and methods for preparing photovoltaic layers and thin films thereof. | 06-23-2011 |
20110146790 | MOLECULAR PRECURSOR METHODS FOR OPTOELECTRONICS - This invention relates to compounds and compositions used to prepare semiconductor and optoelectronic materials and devices. This invention provides a range of compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, as well as devices and systems for energy conversion, including solar cells. In particular, this invention relates to molecular precursor compounds, precursor materials and methods for preparing photovoltaic layers. | 06-23-2011 |
20120067407 | DEPOSITION PROCESSES AND PHOTOVOLTAIC DEVICES WITH POLYMERIC PRECURSORS - Processes for making a solar cell by depositing various layers of components on a substrate and converting the components into a thin film photovoltaic absorber material. Processes of this disclosure can be used to control the stoichiometry of metal atoms in making a solar cell for targeting a particular concentration and providing a gradient of metal atom concentration. A selenium layer can be used in annealing a thin film photovoltaic absorber material. | 03-22-2012 |
20120067424 | ANNEALING PROCESSES FOR PHOTOVOLTAICS - Processes for making a solar cell by depositing various layers of components on a substrate and converting the components into a thin film photovoltaic absorber material. Processes of this disclosure can be used to control the stoichiometry of metal atoms in making a solar cell for targeting a particular concentration and providing a gradient of metal atom concentration. A selenium layer can be used in annealing a thin film photovoltaic absorber material. | 03-22-2012 |
20120073633 | INKS WITH ALKALI METALS FOR THIN FILM SOLAR CELL PROCESSES - Processes for making a thin film solar cell on a substrate by providing a substrate coated with an electrical contact layer, depositing an ink onto the contact layer of the substrate, wherein the ink contains an alkali ion source compound suspended or dissolved in a carrier along with photovoltaic absorber precursor compounds, and heating the substrate. The alkali ion source compound can be M | 03-29-2012 |
20120073637 | DEPOSITION PROCESSES AND PHOTOVOLTAIC DEVICES WITH COMPOSITIONAL GRADIENTS - Processes for making a solar cell by depositing various layers of components on a substrate and converting the components into a thin film photovoltaic absorber material. Processes of this disclosure can be used to control the stoichiometry of metal atoms in making a solar cell for targeting a particular concentration and providing a gradient of metal atom concentration. A selenium layer can be used in annealing a thin film photovoltaic absorber material. | 03-29-2012 |
20120073659 | DEPOSITION PROCESSES FOR PHOTOVOLTAIC DEVICES - Processes for making a solar cell by depositing various layers of components on a substrate and converting the components into a thin film photovoltaic absorber material. Processes of this disclosure can be used to control the stoichiometry of metal atoms in making a solar cell for targeting a particular concentration and providing a gradient of metal atom concentration. A selenium layer can be used in annealing a thin film photovoltaic absorber material. | 03-29-2012 |
20120318357 | DEPOSITION PROCESSES FOR PHOTOVOLTAICS - Processes for making a solar cell by depositing various layers of components on a substrate and converting the components into a thin film photovoltaic absorber material. Processes of this disclosure can be used to control the stoichiometry of metal atoms in making a solar cell, and for targeting a particular concentration. CIGS thin film solar cells can be made. | 12-20-2012 |
20120318358 | SOLUTION-BASED PROCESSES FOR SOLAR CELLS - Solution-based processes for making thin film solar cells including CIGS are disclosed. A solar cell can have a conversion efficiency of 15% to 20% or greater. Processes for making solar cells include depositing various layers of monomer and polymeric components on a substrate and converting the components into a thin film photovoltaic absorber material. The stoichiometry of metal atoms in a solar cell can be controlled and targeted. | 12-20-2012 |
20130019777 | POLYMERIC PRECURSORS FOR CIS AND CIGS PHOTOVOLTAICS - This invention relates to a range of compounds, inks and compositions used to make materials for photovoltaics, including solar cells. In particular, this invention relates to inks containing precursor compounds, as well as the precursor compounds, and materials for preparing photovoltaic layers. The precursor compounds and inks contain compounds having the formula M | 01-24-2013 |
20130025660 | PROCESSES FOR PHOTOVOLTAIC ABSORBERS WITH COMPOSITIONAL GRADIENTS - Processes for making a photovoltaic absorber by depositing various layers of components on a substrate and converting the components into a thin film photovoltaic absorber material. Processes of this disclosure can be used to make a photovoltaic absorber having a concentration gradient of various atoms. CIGS thin film solar cells can be made. | 01-31-2013 |
20130025680 | INK DEPOSITION PROCESSES FOR PHOTOVOLTAIC ABSORBERS - Processes for making a process for making a photovoltaic absorber by depositing various layers of components on a substrate and converting the components into a thin film photovoltaic absorber material. Processes for depositing an ink containing compounds having the formula M | 01-31-2013 |
20130037106 | PRECURSORS AND USES FOR CIS AND CIGS PHOTOVOLTAICS - Processes for making a photovoltaic layer on a substrate by depositing a first layer of an ink onto the substrate, wherein the ink contains one or more compounds having the formula M | 02-14-2013 |
20130040418 | PRECURSORS AND USES FOR CIS AND CIGS PHOTOVOLTAICS - Methods for photovoltaic absorber materials for uses including solar cells. The methods include depositing onto a substrate an ink comprising one or more compounds having the formula M | 02-14-2013 |
20130087744 | INK COMPOSITIONS FOR PHOTOVOLTAICS - Ink compositions for making materials, including photovoltaic absorber materials for solar cells. An ink composition of this invention can contain one or more compounds having the formula M | 04-11-2013 |
20130087745 | SOLUBLE PRECURSORS AND SOLUTION-BASED PROCESSES FOR PHOTOVOLTAICS - Processes and compositions for making photovoltaic absorber materials for thin film solar cells including CIGS are disclosed. The processes and compositions achieve high thickness per pass for efficient manufacturing. Processes include depositing one or more layers of an ink onto a substrate, wherein the ink contains one or more polymeric precursor compounds. An ink for making a photovoltaic absorber material may contain one or more precursor compounds and an additive dissolved in one or more solvents, including hydrocarbon solvents. | 04-11-2013 |
20130256820 | THIN FILM ALUMINUM-CONTAINING PHOTOVOLTAICS - This invention relates to thin film photovoltaic materials containing aluminum, as well as methods for making materials using polymeric precursor compounds. This invention provides a range of compounds, polymeric compounds, compositions, materials and methods directed ultimately toward photovoltaic applications, devices and systems for energy conversion, and solar cells. This invention further relates to methods for making CA(I,G,A)S, CAIGAS, A(I,G,A)S, AIGAS, C(I,G,A)S, and CIGAS thin film materials by providing one or more polymeric precursor compounds or inks thereof, providing a substrate, depositing the compounds or inks onto the substrate; and heating the substrate. | 10-03-2013 |
20140011075 | NICKEL AND LITHIUM-CONTAINING MOLECULAR PRECURSORS FOR BATTERY CATHODE MATERIALS - Lithium-nickel-containing molecular precursor compounds, compositions and processes for making cathodes for lithium ion batteries. The molecular precursor compounds are soluble and provide processes to make cathode materials with controlled stoichiometry in solution-based processes. The cathode material can be, for example, a lithium nickel oxide, a lithium nickel phosphate, or a lithium nickel silicate. Cathodes can be made as bulk material in a solid form or in solution, or in various forms including thin films. | 01-09-2014 |
20140011086 | MOLECULAR PRECURSORS FOR LITHIUM-IRON-CONTAINING CATHODE MATERIALS - Lithium-iron molecular precursor compounds, compositions and processes for making a cathode for lithium ion batteries. The molecular precursor compounds are soluble and provide processes to make stoichiometric cathode materials with solution-based processes. The cathode material can be, for example, a lithium iron oxide, a lithium iron phosphate, or a lithium iron silicate. Cathodes can be made as bulk material in a solid form or in solution, or in various forms including thin films. | 01-09-2014 |
20140090710 | INK DEPOSITION PROCESSES FOR THIN FILM CIGS ABSORBERS - Efficient processes for making thin film CIGS photovoltaic light absorber materials on a substrate. The processes involve depositing CIGS polymeric precursor inks in combination with depositing indium gallium selenide molecular precursor inks onto a substrate. | 04-03-2014 |