Structure and method to achieve large strain in NS without addition of stack-generated defects
A stack for a semiconductor device and a method for making the stack are disclosed. The stack comprises a plurality of sacrificial layers in which each sacrificial layer comprises a first lattice parameter; and at least one channel layer comprising a second lattice parameter that is different from t...
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| Main Authors | , , , |
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| Format | Patent |
| Language | English |
| Published |
07.05.2019
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| Subjects | |
| Online Access | Get full text |
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| Abstract | A stack for a semiconductor device and a method for making the stack are disclosed. The stack comprises a plurality of sacrificial layers in which each sacrificial layer comprises a first lattice parameter; and at least one channel layer comprising a second lattice parameter that is different from the first lattice parameter and in which each channel layer is disposed between and in contact with two sacrificial layers. The stack is formed on an underlayer in which a sacrificial layer is in contact with the underlayer. The underlayer comprises a third lattice parameter that substantially matches the lattice parameter that the plurality of sacrificial layers and the at least one channel layer would have if the plurality of sacrificial layers and the at least one channel layer were was allow to relax coherently. |
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| AbstractList | A stack for a semiconductor device and a method for making the stack are disclosed. The stack comprises a plurality of sacrificial layers in which each sacrificial layer comprises a first lattice parameter; and at least one channel layer comprising a second lattice parameter that is different from the first lattice parameter and in which each channel layer is disposed between and in contact with two sacrificial layers. The stack is formed on an underlayer in which a sacrificial layer is in contact with the underlayer. The underlayer comprises a third lattice parameter that substantially matches the lattice parameter that the plurality of sacrificial layers and the at least one channel layer would have if the plurality of sacrificial layers and the at least one channel layer were was allow to relax coherently. |
| Author | Kittl, Jorge A Hegde, Ganesh Rodder, Mark S Bowen, Robert C |
| Author_xml | – fullname: Rodder, Mark S – fullname: Kittl, Jorge A – fullname: Bowen, Robert C – fullname: Hegde, Ganesh |
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| Notes | Application Number: US201615086015 |
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| RelatedCompanies | Kittl Jorge A Hegde Ganesh Rodder Mark S Bowen Robert C SAMSUNG ELECTRONICS CO., LTD |
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| Snippet | A stack for a semiconductor device and a method for making the stack are disclosed. The stack comprises a plurality of sacrificial layers in which each... |
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| SubjectTerms | BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES |
| Title | Structure and method to achieve large strain in NS without addition of stack-generated defects |
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