Patent application number | Description | Published |
20100112785 | Methods and apparatus for producing semiconductor on insulator structures using directed exfoliation - Methods and apparatus provide for forming a semiconductor-on-insulator (SOI) structure, including subjecting a implantation surface of a donor semiconductor wafer to an ion implantation step to create a weakened slice in cross-section defining an exfoliation layer of the donor semiconductor wafer; and subjecting the donor semiconductor wafer to a spatial variation step, either before, during or after the ion implantation step, such that at least one parameter of the weakened slice varies spatially across the weakened slice in at least one of X- and Y-axial directions. | 05-06-2010 |
20100112825 | Methods and apparatus for producing semiconductor on insulator structures using directed exfoliation - Methods and apparatus provide for forming a semiconductor-on-insulator (SOI) structure, including subjecting a implantation surface of a donor semiconductor wafer to an ion implantation step to create a weakened slice in cross-section defining an exfoliation layer of the donor semiconductor wafer; and subjecting the donor semiconductor wafer to a spatial variation step, either before, during or after the ion implantation step, such that at least one parameter of the weakened slice varies spatially across the weakened slice in at least one of X- and Y-axial directions. | 05-06-2010 |
20100216295 | SEMICONDUCTOR ON INSULATOR MADE USING IMPROVED DEFECT HEALING PROCESS - Methods and apparatus for producing a semiconductor on glass (SOG) structure include: subjecting an implantation surface of a donor semiconductor wafer to an ion implantation process to create an exfoliation layer of the donor semiconductor wafer; bonding the implantation surface of the exfoliation layer to a glass substrate using electrolysis; separating the exfoliation layer from the donor semiconductor wafer, thereby exposing at least one cleaved surface; subjecting the at least one cleaved surface to an amorphization ion implantation process at a dose sufficient to amorphize at least some depth of the semiconductor material below the at least one cleaved surface; and re-growing the amorphized portion of the semiconductor material into a substantially single crystalline semiconductor layer using solid phase epitaxial re-growth | 08-26-2010 |
20100221927 | METHODS AND APPARATUS FOR PRODUCING SEMICONDUCTOR ON INSULATOR STRUCTURES USING DIRECTED EXFOLIATION - Methods and apparatus provide for forming a semiconductor-on-insulator (SOI) structure, including subjecting a implantation surface of a donor semiconductor wafer to an ion implantation step to create a weakened slice in cross-section defining an exfoliation layer of the donor semiconductor wafer; and subjecting the donor semiconductor wafer to a spatial variation step, either before, during or after the ion implantation step, such that at least one parameter of the weakened slice varies spatially across the weakened slice in at least one of X- and Y-axial directions. | 09-02-2010 |
20120001293 | SEMICONDUCTOR ON GLASS SUBSTRATE WITH STIFFENING LAYER AND PROCESS OF MAKING THE SAME - A semiconductor-on-glass substrate having a relatively stiff (e.g. relatively high Young's modulus of 125 or higher) stiffening layer or layers placed between the silicon film and the glass in order to eliminate the canyons and pin holes that otherwise form in the surface of the transferred silicon film during the ion implantation thin film transfer process. The new stiffening layer may be formed of a material, such as silicon nitride, that also serves as an efficient barrier against penetration of sodium and other harmful impurities from the glass substrate into the silicon film. | 01-05-2012 |
20120003813 | OXYGEN PLASMA CONVERSION PROCESS FOR PREPARING A SURFACE FOR BONDING - A process for preparing a surface of a material that is not bondable to make it bondable to the surface of another material. A non-bondable surface of a semiconductor wafer is treated with oxygen plasma to oxidize the surface of the wafer and make the surface smoother, hydrophilic and bondable to the surface of another substrate, such as a glass substrate. The semiconductor wafer may have a barrier layer thereon formed of a material, such as SixNy or SiNxOy that is not bondable to another substrate, such as a glass substrate. In which case, the oxygen plasma treatment converts the surface of the barrier layer to oxide, such as SiO2, smoothing the surface and making the surface hydrophilic and bondable to the surface of another substrate, such as a glass substrate. The converted oxide layer may be stripped from the barrier layer or semiconductor wafer with an acid, in order to remove contamination on the surface of the barrier layer or semiconductor wafer, the stripped surface may undergo a second oxygen plasma treatment to further smooth the surface, and make the surface hydrophilic and bondable to the surface of another substrate | 01-05-2012 |
20120028443 | METHODS AND APPARATUS FOR PRODUCING SEMICONDUCTOR ON INSULATOR STRUCTURES USING DIRECTED EXFOLIATION - Methods and apparatus provide for forming a semiconductor-on-insulator (SOI) structure, including subjecting a implantation surface of a donor semiconductor wafer to an ion implantation step to create a weakened slice in cross-section defining an exfoliation layer of the donor semiconductor wafer; and subjecting the donor semiconductor wafer to a spatial variation step, either before, during or after the ion implantation step, such that at least one parameter of the weakened slice varies spatially across the weakened slice in at least one of X- and Y- axial directions. | 02-02-2012 |
20120129293 | METHODS OF MAKING AN UNSUPPORTED ARTICLE OF A SEMICONDUCTING MATERIAL USING THERMALLY ACTIVE MOLDS - The invention relates to methods of making unsupported articles of semiconducting material using thermally active molds having an external surface temperature, T | 05-24-2012 |
20130089968 | METHOD FOR FINISHING SILICON ON INSULATOR SUBSTRATES - A process for finishing an as transferred layer on a semiconductor-on-insulator structure or a semiconductor-on-glass (or other insulator substrate) structure is provided by removing the damaged surface portion of a semiconductor layer while a leaving a smooth, finished semiconductor film on the glass. The damaged surface layer is treated with an oxygen plasma to oxidize the damaged layer and convert the damaged layer into an oxide layer. The oxide layer is then stripped in a wet bath, such as hydrofluoric acid bath, thereby removing the damaged portion of the semiconductor layer. The damaged layer may be an ion implantation damaged layer resulting from a thin film transfer processes used to make the semiconductor-on-insulator structure or the semiconductor-on-glass structure. | 04-11-2013 |
20130130473 | SEMICONDUCTOR ON GLASS SUBSTRATE WITH STIFFENING LAYER AND PROCESS OF MAKING THE SAME - A semiconductor-on-glass substrate having a relatively stiff (e.g. relatively high Young's modulus of 125 or higher) stiffening layer or layers placed between the silicon film and the glass in order to eliminate the canyons and pin holes that otherwise form in the surface of the transferred silicon film during the ion implantation thin film transfer process. The new stiffening layer may be formed of a material, such as silicon nitride, that also serves as an efficient barrier against penetration of sodium and other harmful impurities from the glass substrate into the silicon film. | 05-23-2013 |