Method for manufacturing semiconductor device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-021/302
H01L-021/322
출원번호
UP-0262753
(2008-10-31)
등록번호
US-7816234
(2010-11-08)
우선권정보
JP-2007-286977(2007-11-05)
발명자
/ 주소
Yamazaki, Shunpei
Arai, Yasuyuki
출원인 / 주소
Semiconductor Energy Laboratory Co., Ltd.
대리인 / 주소
Fish & Richardson P.C.
인용정보
피인용 횟수 :
0인용 특허 :
14
초록▼
As a base substrate, a substrate having an insulating surface such as a glass substrate is used. Then, a single crystal semiconductor layer is formed over the base substrate with the use of a large-sized semiconductor substrate. Note that, it is preferable that the base substrate be provided with a
As a base substrate, a substrate having an insulating surface such as a glass substrate is used. Then, a single crystal semiconductor layer is formed over the base substrate with the use of a large-sized semiconductor substrate. Note that, it is preferable that the base substrate be provided with a plurality of single crystal semiconductor layers. After that, the single crystal semiconductor layers are cut to divide the single crystal semiconductor layers into a plurality of single crystal semiconductor regions by patterning. Next, the single crystal semiconductor regions are irradiated with laser light or heat treatment is performed on the single crystal semiconductor regions in order to improve the planarity of surfaces and reduce defects. Peripheral portions of the single crystal semiconductor regions are not used as semiconductor elements, and central portions of the single crystal semiconductor regions are used as the semiconductor elements.
대표청구항▼
What is claimed is: 1. A method for manufacturing a semiconductor device, comprising the steps of: irradiating a surface of a single crystal semiconductor substrate with ions in order to form a damaged region in the single crystal semiconductor substrate; forming a first insulating layer over the s
What is claimed is: 1. A method for manufacturing a semiconductor device, comprising the steps of: irradiating a surface of a single crystal semiconductor substrate with ions in order to form a damaged region in the single crystal semiconductor substrate; forming a first insulating layer over the surface of the single crystal semiconductor substrate; forming a second insulating layer over a surface of the first insulating layer; bonding the second insulating layer to a substrate having an insulating surface; separating the single crystal semiconductor substrate at the damaged region in order to form a single crystal semiconductor layer over the substrate having the insulating surface; patterning the single crystal semiconductor layer to be separated into a plurality of single crystal semiconductor regions; performing at least one of laser light irradiation treatment and heat treatment on the plurality of single crystal semiconductor regions; and patterning semiconductor layers in the plurality of single crystal semiconductor regions. 2. A method for manufacturing a semiconductor device, comprising the steps of: irradiating surfaces of a plurality of single crystal semiconductor substrates with ions in order to form damaged regions in the plurality of single crystal semiconductor substrates; forming first insulating layers over the surfaces of the plurality of single crystal semiconductor substrates; forming second insulating layers over surfaces of the first insulating layers; bonding the second insulating layers to a substrate having an insulating surface; separating the plurality of single crystal semiconductor substrates at the damaged regions in order to form a plurality of single crystal semiconductor layers over the substrate having the insulating surface; patterning each of the plurality of single crystal semiconductor layers to be separated into a plurality of single crystal semiconductor regions; performing at least one of laser light irradiation treatment and heat treatment on the plurality of single crystal semiconductor regions; and patterning semiconductor layers in the plurality of single crystal semiconductor regions. 3. The method for manufacturing the semiconductor device according to claim 1, wherein the first insulating layer contains any one of silicon oxide, silicon nitride, silicon oxynitride, or silicon nitride oxide. 4. The method for manufacturing the semiconductor device according to claim 2, wherein the first insulating layers contain any one of silicon oxide, silicon nitride, silicon oxynitride, or silicon nitride oxide. 5. The method for manufacturing the semiconductor device according to claim 1, wherein the first insulating layer has a stacked-layer structure. 6. The method for manufacturing the semiconductor device according to claim 2, wherein the first insulating layers have a stacked-layer structure. 7. The method for manufacturing the semiconductor device according to claim 1, wherein the first insulating layer has a stacked-layer structure of silicon oxide or silicon oxynitride and silicon nitride or silicon nitride oxide, which are stacked in this order over the surface of the single crystal semiconductor substrate. 8. The method for manufacturing the semiconductor device according to claim 2, wherein the first insulating layers have a stacked-layer structure of silicon oxide or silicon oxynitride and silicon nitride or silicon nitride oxide, which are stacked in this order over the surfaces of the plurality of single crystal semiconductor substrates. 9. The method for manufacturing the semiconductor device according to claim 1, wherein the single crystal semiconductor layer is patterned so as to leave the first insulating layer. 10. The method for manufacturing the semiconductor device according to claim 2, wherein the plurality of single crystal semiconductor layers are patterned so as to leave the first insulating layers. 11. The method for manufacturing the semiconductor device according to claim 1, wherein the second insulating layer is formed using an organosilane gas by a chemical vapor deposition method. 12. The method for manufacturing the semiconductor device according to claim 2, wherein the second insulating layers are formed using an organosilane gas by a chemical vapor deposition method. 13. The method for manufacturing the semiconductor device according to claim 1, wherein the single crystal semiconductor layer has a rectangular shape, and length of a diagonal line of the single crystal semiconductor layer is 250 mm or longer. 14. The method for manufacturing the semiconductor device according to claim 2, wherein each of the plurality of single crystal semiconductor layers has a rectangular shape, and length of a diagonal line of each of the plurality of single crystal semiconductor layers is 250 mm or longer. 15. The method for manufacturing the semiconductor device according to claim 1, wherein a semiconductor element is formed using a central portion of the plurality of single crystal semiconductor regions. 16. The method for manufacturing the semiconductor device according to claim 2, wherein a semiconductor element is formed using a central portion of the plurality of single crystal semiconductor regions. 17. The method for manufacturing the semiconductor device according to claim 1, wherein both of the laser light irradiation treatment and the heat treatment are performed on the plurality of single crystal semiconductor regions. 18. The method for manufacturing the semiconductor device according to claim 2, wherein both of the laser light irradiation treatment and the heat treatment are performed on the plurality of single crystal semiconductor regions. 19. The method for manufacturing the semiconductor device according to claim 2, wherein the surfaces of the plurality of single crystal semiconductor substrates are irradiated with ions at the same time. 20. The method for manufacturing the semiconductor device according to claim 2, wherein the surfaces of the plurality of single crystal semiconductor substrates are irradiated with ions in series.
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이 특허에 인용된 특허 (14)
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