Patent application number | Description | Published |
20120070936 | ANNEALING THIN FILMS - In an annealing process, a Kesterite film is provided on a substrate. The Kesterite film and the substrate are generally planar, have an interface, and have a substrate exterior side and a Kesterite exterior side. An additional step includes locating the cap adjacent the Kesterite exterior side. A further step includes applying sufficient heat to the Kesterite film and the substrate for a sufficient time to anneal the Kesterite film. The annealing is carried out with the cap adjacent the Kesterite exterior side. In another aspect, the film is not limited to Kesterite, and the cap is employed without any precursor layer thereon. Solar cell manufacturing techniques employing the annealing techniques are also disclosed. | 03-22-2012 |
20130115732 | Method to Fabricate Multicrystal Solar Cell with Light Trapping Surface Using Nanopore Copolymer - Multi-crystalline silicon processing techniques are provided. In one aspect, a method for roughening a multi-crystalline silicon surface is provided. The method includes the following steps. The multi-crystalline silicon surface is coated with a diblock copolymer. The diblock copolymer is annealed to form nanopores therein. The multi-crystalline silicon surface is etched through the nanopores in the diblock copolymer to roughen the multi-crystalline silicon surface. The diblock copolymer is removed. A multi-crystalline silicon substrate with a roughened surface having a plurality of peaks and troughs is also provided, wherein a distance from one peak to an adjacent peak on the roughened surface is from about 20 nm to about 400 nm. | 05-09-2013 |
20150303249 | METHODS FOR THE PRODUCTION OF INTEGRATED CIRCUITS COMPRISING EPITAXIALLY GROWN REPLACEMENT STRUCTURES - Integrated circuits and methods for producing such integrated circuits are provided. A method for producing the integrated circuit includes forming dummy structures in a substrate, and forming shallow trench isolation regions between the dummy structures where the shallow trench isolation regions includes a liner overlying a core. The dummy structures are etched to expose structure bases, and the structure bases are precleaned. Replacement structures are epitaxially grown over the structure bases. | 10-22-2015 |
20150333086 | METHOD FOR MAKING SEMICONDUCTOR DEVICE WITH DIFFERENT FIN SETS - A method for making a semiconductor device may include forming, above a substrate, first and second semiconductor regions laterally adjacent one another and each including a first semiconductor material. The first semiconductor region may have a greater vertical thickness than the second semiconductor region and define a sidewall with the second semiconductor region. The method may further include forming a spacer above the second semiconductor region and adjacent the sidewall, and forming a third semiconductor region above the second semiconductor region and adjacent the spacer, with the second semiconductor region including a second semiconductor material different than the first semiconductor material. The method may also include removing the spacer and portions of the first semiconductor material beneath the spacer, forming a first set of fins from the first semiconductor region, and forming a second set of fins from the second and third semiconductor regions. | 11-19-2015 |
20150333155 | METHOD FOR MAKING SEMICONDUCTOR DEVICE WITH FILLED GATE LINE END RECESSES - A method for making a semiconductor device may include forming first and second spaced apart semiconductor active regions with an insulating region therebetween, forming at least one sacrificial gate line extending between the first and second spaced apart semiconductor active regions and over the insulating region, and forming sidewall spacers on opposing sides of the at least one sacrificial gate line. The method may further include removing portions of the at least one sacrificial gate line within the sidewall spacers and above the insulating region defining at least one gate line end recess, filling the at least one gate line end recess with a dielectric material, and forming respective replacement gates in place of portions of the at least one sacrificial gate line above the first and second spaced apart semiconductor active regions. | 11-19-2015 |