Patent application number | Description | Published |
20130224900 | SOLAR CELL MADE IN A SINGLE PROCESSING CHAMBER - Methods for forming a photovoltaic device include depositing a p-type layer on a substrate and cleaning the p-type layer by exposing a surface of the p-type layer to a plasma treatment to react with contaminants. An intrinsic layer is formed on the p-type layer, and an n-type layer is formed on the intrinsic layer. | 08-29-2013 |
20140124019 | LOW VACUUM FABRICATION OF MICROCRYSTALLINE SOLAR CELLS - A device and method for forming a photovoltaic device include forming a photovoltaic stack of layers on a transparent substrate wherein at least one layer of the photovoltaic stack of layers includes a microcrystalline layer. The microcrystalline layer is formed by purging a vacuum chamber with a gettering gas to remove contaminant species from the chamber prior to forming the microcrystalline layer. The microcrystalline layer is deposited at a vacuum base pressure of greater than about 10 | 05-08-2014 |
20140127852 | LOW VACUUM FABRICATION OF MICROCRYSTALLINE SOLAR CELLS - A device and method for forming a photovoltaic device include forming a photovoltaic stack of layers on a transparent substrate wherein at least one layer of the photovoltaic stack of layers includes a microcrystalline layer. The microcrystalline layer is formed by purging a vacuum chamber with a gettering gas to remove contaminant species from the chamber prior to forming the microcrystalline layer. The microcrystalline layer is deposited at a vacuum base pressure of greater than about 10 | 05-08-2014 |
20140216534 | BUFFER LAYER FOR HIGH PERFORMING AND LOW LIGHT DEGRADED SOLAR CELLS - Methods for forming a photovoltaic device include forming a buffer layer between a transparent electrode and a p-type layer. The buffer layer includes a doped germanium-free silicon base material. The buffer layer has a work function that falls within barrier energies of the transparent electrode and the p-type layer. An intrinsic layer and an n-type layer are formed on the p-type layer. Devices are also provided. | 08-07-2014 |
20140217408 | BUFFER LAYER FOR HIGH PERFORMING AND LOW LIGHT DEGRADED SOLAR CELLS - Methods for forming a photovoltaic device include forming a buffer layer between a transparent electrode and a p-type layer. The buffer layer includes a doped germanium-free silicon base material. The buffer layer has a work function that falls within barrier energies of the transparent electrode and the p-type layer. An intrinsic layer and an n-type layer are formed on the p-type layer. Devices are also provided. | 08-07-2014 |
20150028279 | RESISTIVE RANDOM ACCESS MEMORY DEVICES WITH EXTREMELY REACTIVE CONTACTS - A resistive switching device includes a first electrode and a transition metal oxide layer formed on the first electrode. An oxygen scavenging electrode is formed on the transition metal oxide wherein the oxygen scavenging electrode removes oxygen from the transition metal oxide layer to increase formation of oxygen vacancies in the transition metal oxide layer to enable a switching mode when a bias is applied between the first electrode and the oxygen scavenging electrode. | 01-29-2015 |
20150059855 | TITANIUM INCORPORATION INTO ABSORBER LAYER FOR SOLAR CELL - A method for fabricating a photovoltaic device includes forming a film including titanium on a conductive layer formed on a substrate. An absorber layer is formed including a Cu—Zn—Sn containing chalcogenide compound with a kesterite structure of the formula: Cu | 03-05-2015 |
20150059856 | TITANIUM INCORPORATION INTO ABSORBER LAYER FOR SOLAR CELL - A method for fabricating a photovoltaic device includes forming a film including titanium on a conductive layer formed on a substrate. An absorber layer is formed including a Cu—Zn—Sn containing chalcogenide compound with a kesterite structure of the formula: Cu | 03-05-2015 |