Fompeyrine
Jean Fompeyrine, Rueschlikon CH
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20120326212 | HIGH k GATE STACK ON III-V COMPOUND SEMICONDUCTORS - A method of forming a high k gate stack on a surface of a III-V compound semiconductor, such GaAs, is provided. The method includes subjecting a III-V compound semiconductor material to a precleaning process which removes native oxides from a surface of the III-V compound semiconductor material; forming a semiconductor, e.g., amorphous Si, layer in-situ on the cleaned surface of the III-V compound semiconductor material; and forming a dielectric material having a dielectric constant that is greater than silicon dioxide on the semiconducting layer. In some embodiments, the semiconducting layer is partially or completely converted into a layer including at least a surface layer that is comprised of AO | 12-27-2012 |
20140035001 | COMPOUND SEMICONDUCTOR STRUCTURE - A semiconductor structure ( | 02-06-2014 |
Jean Fompeyrine, Waedenswil CH
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20150061078 | COMPOUND SEMICONDUCTOR STRUCTURE - A semiconductor structure comprises a substrate comprising a first crystalline semiconductor material, a dielectric layer, above the substrate, defining an opening, a second crystalline semiconductor material at least partially filling the opening, and a crystalline interlayer between the substrate and the second crystalline semiconductor material. The first crystalline semiconductor material and the second crystalline semiconductor material are lattice mismatched, and the crystalline interlayer comprises an oxygen compound. A method for fabricating semiconductor structure comprises the steps of providing a substrate including a first crystalline semiconductor material, patterning an opening in a dielectric layer above the substrate, the opening having a bottom, forming a crystalline interlayer on the substrate at least partially covering the bottom, and growing a second crystalline semiconductor material on the crystalline interlayer thereby at least partially filling the opening. The crystalline semiconductor materials are lattice mismatched, and the crystalline interlayer comprises an oxygen compound. | 03-05-2015 |
20150228669 | METHOD TO FORM GROUP III-V AND Si/Ge FINFET ON INSULATOR - A method includes providing a structure having a substrate, a first electrically insulating layer overlying the substrate, a first semiconductor layer comprised of a first semiconductor material overlying the first electrically insulating layer, a second electrically insulating layer overlying the first semiconductor layer in a first portion of the structure and a second semiconductor layer comprised of a second, different semiconductor material overlying the second electrically insulating layer in the first portion. The method further includes growing additional first semiconductor material on the first semiconductor layer in a second portion of the structure to form a regrown semiconductor layer; forming fins; forming gate structures orthogonal to the fins and removing at least a portion of the first semiconductor layer in the first portion of the structure to form a void and filling the void with insulating material. Structures formed by the method are also disclosed. | 08-13-2015 |
Jean Fompeyrine, Waedenswii CH
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20150228670 | METHOD TO FORM DUAL CHANNEL GROUP III-V AND Si/Ge FINFET CMOS - A method includes providing a structure having a substrate, a first insulating layer on the substrate, a first semiconductor material layer on the first insulating layer, a second insulating layer on the first semiconductor layer in a first portion of the structure and a second semiconductor layer of a second, different semiconductor material on the second insulating layer in the first portion. The method further includes growing additional first semiconductor material on the first semiconductor layer in a second portion of the structure forming a regrown semiconductor layer; forming first fins in the regrown semiconductor layer and second fins in the second semiconductor layer; and forming gate structures upon the first and second fins. A height difference, relative to a surface of the first insulating layer, of the gate structures formed upon the first fins and the gate structures formed upon the second fins is less than a predetermined value. | 08-13-2015 |