IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0591383
(2006-11-01)
|
등록번호 |
US-8120060
(2012-02-21)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Massachusetts Institute of Technology
|
대리인 / 주소 |
Wolf, Greenfield & Sacks, P.C.
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인용정보 |
피인용 횟수 :
10 인용 특허 :
32 |
초록
▼
Methods and structures for monolithically integrating monocrystalline silicon and monocrystalline non-silicon materials and devices are provided. In one structure, a monolithically integrated semiconductor device structure comprises a silicon substrate and a first monocrystalline semiconductor layer
Methods and structures for monolithically integrating monocrystalline silicon and monocrystalline non-silicon materials and devices are provided. In one structure, a monolithically integrated semiconductor device structure comprises a silicon substrate and a first monocrystalline semiconductor layer disposed over the silicon substrate, wherein the first monocrystalline semiconductor layer has a lattice constant different from a lattice constant of relaxed silicon. The structure also includes an insulating layer disposed over the first monocrystalline semiconductor layer in a first region and a monocrystalline silicon layer disposed over the insulating layer in the first region. The structure includes at least one silicon-based electronic device comprising an element including at least a portion of the monocrystalline silicon layer. The structure includes a second monocrystalline semiconductor layer disposed over at least a portion of the first monocrystalline semiconductor layer in a second region and absent from the first region, wherein the second monocrystalline semiconductor layer has a lattice constant different from the lattice constant of relaxed silicon. The structure also includes at least one III-V electronic device comprising an element including at least a portion of the second monocrystalline semiconductor layer.
대표청구항
▼
1. A monolithically integrated semiconductor device structure comprising: a silicon substrate;a first semiconductor layer disposed over the silicon substrate, wherein the first semiconductor layer has a lattice constant different from a lattice constant of relaxed silicon;an insulating layer dispose
1. A monolithically integrated semiconductor device structure comprising: a silicon substrate;a first semiconductor layer disposed over the silicon substrate, wherein the first semiconductor layer has a lattice constant different from a lattice constant of relaxed silicon;an insulating layer disposed over the first semiconductor layer in a first region;a silicon layer disposed over the insulating layer in the first region;at least one silicon-based electronic device comprising an element including at least a portion of the silicon layer;a second semiconductor layer disposed over at least a portion of the first semiconductor layer in a second region and absent from the first region, wherein the second semiconductor layer has a lattice constant different from the lattice constant of relaxed silicon; andat least one III-V electronic device comprising an element including at least a portion of the second semiconductor layer,wherein a top surface of the second semiconductor layer is coplanar with a top surface of the silicon layer. 2. The semiconductor structure of claim 1, wherein the second semiconductor layer has a composition different than that of the first layer. 3. The semiconductor structure of claim 1, wherein the at least one silicon-based electronic device comprises a metal oxide semiconductor field-effect transistor. 4. The semiconductor structure of claim 1, wherein the at least one III-V electronic device comprises a III-V high electron mobility transistor (HEMT). 5. The semiconductor structure of claim 1, wherein the at least one III-V electronic device comprises a III-V heterojunction bipolar transistor (HBT). 6. The semiconductor structure of claim 1, further comprising: an electrical interconnect coupling the at least one silicon-based electronic device with the at least III-V electronic device. 7. The semiconductor structure of claim 1, wherein the second semiconductor layer is disposed in contact with the at least a portion of the first semiconductor layer. 8. The semiconductor structure of claim 1, wherein the second semiconductor layer comprises a III-V semiconductor layer. 9. The semiconductor structure of claim 8, further comprising a silicon layer disposed over the III-V semiconductor layer. 10. The semiconductor structure of claim 9, wherein the silicon layer is disposed in contact with the III-V semiconductor layer. 11. The semiconductor structure of claim 1, wherein the silicon layer comprises a relaxed silicon layer. 12. The semiconductor structure of claim 1, wherein the silicon layer comprises a strained silicon layer. 13. The semiconductor structure of claim 1, further comprising a second insulating layer disposed over the silicon substrate and under the first semiconductor layer. 14. The semiconductor structure of claim 1, wherein the first semiconductor layer comprises at least two semiconductor layers disposed over each other and having lattice constants different from each other and different from the lattice constant of relaxed silicon. 15. The semiconductor structure of claim 14, wherein the at least two semiconductor layers comprise a germanium layer and an InP layer. 16. The semiconductor structure of claim 14, wherein the at least two semiconductor layers comprise a germanium layer and a GaN layer. 17. The semiconductor structure of claim 14, wherein the at least two semiconductor layers comprise a GaAs layer and an InP layer. 18. The semiconductor structure of claim 14, wherein the at least two semiconductor layers comprise a GaAs layer and a GaN layer. 19. The semiconductor structure of claim 1, wherein the first semiconductor layer comprises a germanium layer. 20. The semiconductor structure of claim 19, wherein the first semiconductor layer further comprises a silicon-germanium graded layer disposed under the germanium layer. 21. The semiconductor structure of claim 19, further comprising a second insulating layer disposed over the silicon substrate and under the germanium layer. 22. The semiconductor structure of claim 21, wherein the germanium layer is disposed in contact with the second insulating layer. 23. The semiconductor structure of claim 1, wherein the first semiconductor layer comprises a silicon-germanium layer. 24. The semiconductor structure of claim 23, wherein the first semiconductor layer further comprises a silicon-germanium graded layer disposed under the silicon-germanium layer. 25. The semiconductor structure of claim 23, further comprising a second insulating layer disposed over the silicon substrate and under the silicon-germanium layer. 26. The semiconductor structure of claim 25, wherein the silicon-germanium layer is disposed in contact with the second insulating layer. 27. The semiconductor structure of claim 1, wherein the first semiconductor layer comprises a III-V semiconductor layer. 28. The semiconductor structure of claim 27, wherein the III-V semiconductor layer comprises a GaN layer. 29. The semiconductor structure of claim 27, wherein the III-V semiconductor layer comprises a GaAs layer. 30. The semiconductor structure of claim 27, wherein the first semiconductor layer further comprises a germanium layer disposed under the III-V semiconductor layer. 31. The semiconductor structure of claim 27, wherein the first semiconductor layer further comprises a silicon-germanium layer disposed under the III-V semiconductor layer. 32. The semiconductor structure of claim 27, wherein the first semiconductor layer further comprises a silicon-germanium graded layer disposed under the III-V semiconductor layer. 33. The semiconductor structure of claim 1, wherein the silicon substrate has a diameter of at least 150 millimeters. 34. The semiconductor structure of claim 1, wherein the silicon substrate has a diameter of at least 200 millimeters. 35. A method of forming a monolithically integrated semiconductor device structure, the method comprising: providing a silicon substrate;disposing a first semiconductor layer over the silicon substrate, wherein the first semiconductor layer has a lattice constant different from a lattice constant of relaxed silicon;disposing an insulating layer over the first semiconductor layer in a first region;disposing a silicon layer over the insulating layer in the first region;forming at least one silicon-based electronic device comprising an element including at least a portion of the silicon layer;disposing a second semiconductor layer over at least a portion of the first semiconductor layer in a second region and absent from the first region, wherein the second semiconductor layer has a lattice constant different from the lattice constant of relaxed silicon; andforming at least one III-V electronic device comprising an element including at least a portion of the second semiconductor layer,wherein a top surface of the second semiconductor layer is coplanar with a top surface of the silicon layer. 36. A monolithically integrated semiconductor device structure comprising: a silicon substrate;a first semiconductor layer disposed over the silicon substrate, wherein the first semiconductor layer has a lattice constant different from a lattice constant of relaxed silicon;a silicon layer disposed over the first semiconductor layer in the first region;at least one silicon-based electronic device comprising an element including at least a portion of the silicon layer;a second semiconductor layer disposed over at least a portion of the first semiconductor layer in a second region and absent from the first region, wherein the second semiconductor layer has a lattice constant different from the lattice constant of relaxed silicon; andat least one III-V electronic device comprising an element including at least a portion of the second semiconductor layer,wherein a top surface of the second semiconductor layer is coplanar with a top surface of the silicon layer. 37. The semiconductor structure of claim 36, further comprising a layer in the first region disposed between the silicon layer and the first semiconductor layer, wherein the second semiconductor layer is disposed on the at least a portion of the first semiconductor layer. 38. The semiconductor structure of claim 37, wherein the layer in the first region disposed between the silicon layer and the first semiconductor layer is a non-insulating layer. 39. The semiconductor structure of claim 37, wherein the layer in the first region disposed between the silicon layer and the first semiconductor layer is an insulating layer. 40. The semiconductor structure of claim 36, wherein at least a portion of the second semiconductor layer has a composition different than a composition of the first layer, wherein the second semiconductor layer is disposed on the at least a portion of the first semiconductor layer.
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