IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0253301
(2008-10-17)
|
등록번호 |
US-8110478
(2012-02-07)
|
우선권정보 |
JP-2007-275823 (2007-10-23); JP-2007-286996 (2007-11-05) |
발명자
/ 주소 |
- Yamazaki, Shunpei
- Ohnuma, Hideto
- Koyama, Jun
|
출원인 / 주소 |
- Semiconductor Energy Laboratory Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
32 |
초록
▼
If the size of a single crystal silicon layer attached is not appropriate, even when a large glass substrate is used, the number of panels to be obtained cannot be maximized. Therefore, in the present invention, a substantially quadrangular single crystal semiconductor substrate is formed from a sub
If the size of a single crystal silicon layer attached is not appropriate, even when a large glass substrate is used, the number of panels to be obtained cannot be maximized. Therefore, in the present invention, a substantially quadrangular single crystal semiconductor substrate is formed from a substantially circular single crystal semiconductor wafer, and a damaged layer is formed by irradiation with an ion beam into the single crystal semiconductor substrate. A plurality of the single crystal semiconductor substrates are arranged so as to be separated from each other over one surface of a supporting substrate. By thermal treatment, a crack is generated in the damaged layer and the single crystal semiconductor substrate is separated while a single semiconductor layer is left over the supporting substrate. After that, one or a plurality of display panels is manufactured from the single crystal semiconductor layer bonded to the supporting substrate.
대표청구항
▼
1. A manufacturing method of a display device comprising the steps of: cutting each of a plurality of substantially circular single crystal semiconductor wafers of 300 to 450 mm in diameter into a substantially quadrangular single crystal semiconductor substrate; forming a damaged layer by implantat
1. A manufacturing method of a display device comprising the steps of: cutting each of a plurality of substantially circular single crystal semiconductor wafers of 300 to 450 mm in diameter into a substantially quadrangular single crystal semiconductor substrate; forming a damaged layer by implantation of hydrogen ions in each of the plurality of substantially quadrangular single crystal semiconductor substrates; forming a bonding layer on each of the plurality of substantially quadrangular single crystal semiconductor substrates after the step of forming the damaged layer; bonding the plurality of substantially quadrangular single crystal semiconductor substrates to a supporting substrate having an insulating surface with the bonding layer interposed therebetween; wherein the bonding the plurality of substantially quadrangular single crystal semiconductor substrates comprises exposing at least a portion of the supporting substrate between at least two of the substantially quadrangular single crystal semiconductor substrates; separating each of the plurality of substantially quadrangular single crystal semiconductor substrates at the damaged layer so that a plurality of single crystal semiconductor layers are left over the supporting substrate; and forming one or a plurality of display panels from each of the plurality of single crystal semiconductor layers, and wherein each vertex of the plurality of substantially quadrangular single crystal semiconductor substrates is provided on each circumference of the plurality of substantially circular single crystal semiconductor wafers. 2. The manufacturing method of a display device according to claim 1, wherein a surface area of each of the plurality of substantially quadrangular single crystal semiconductor substrates accounts for 50% or more of a surface area of each of the plurality of substantially circular single crystal semiconductor wafers. 3. The manufacturing method of a display device according to claim 1, wherein the plurality of substantially quadrangular single crystal semiconductor substrates is arranged over the supporting substrate so as to be separated from each other. 4. The manufacturing method of a display device according to claim 1, wherein surfaces of the plurality of single crystal semiconductor layers are flattened by irradiating the plurality of single crystal semiconductor layers with a laser beam in a nitrogen atmosphere. 5. The manufacturing method of a display device according to claim 4, wherein the plurality of single crystal semiconductor layers are heated at a temperature of 250 to 600° C. on irradiating with the laser beam. 6. A manufacturing method of a display panel comprising the steps of: cutting each of a plurality of substantially circular silicon wafers of 400 mm or more in diameter into a substantially quadrangular single crystal semiconductor substrate; forming a damaged layer by implantation of hydrogen ions in each of the plurality of substantially quadrangular single crystal semiconductor substrates; bonding the plurality of substantially quadrangular single crystal semiconductor substrates to a supporting substrate having an insulating surface after the step of forming the damaged layer; wherein the bonding the plurality of substantially quadrangular single crystal semiconductor substrates comprises exposing at least a portion of the supporting substrate between at least two of the substantially quadrangular single crystal semiconductor substrates; forming a plurality of single crystal semiconductor layers on the supporting substrate so as to be separated from each other, by separating each of the plurality of substantially quadrangular single crystal semiconductor substrates at the damaged layer; and forming an element region in one of the plurality of single crystal semiconductor layers, wherein the element region has a screen of more than or equal to 10 inches and less than or equal to 15 inches, wherein a surface area of each of the plurality of substantially quadrangular single crystal semiconductor substrates accounts for 50% or more of a surface area of each of the plurality of substantially circular silicon wafers, and wherein each vertex of the plurality of substantially quadrangular single crystal semiconductor substrates is provided on each circumference of the plurality of substantially circular silicon wafers. 7. A manufacturing method of a display panel comprising the steps of: cutting each of a plurality of substantially circular silicon wafers of 400 mm or more in diameter into a substantially quadrangular single crystal semiconductor substrate; forming a damaged layer by implantation of hydrogen ions in each of the plurality of substantially quadrangular single crystal semiconductor substrates; bonding the plurality of substantially quadrangular single crystal semiconductor substrates to a supporting substrate having an insulating surface after the step of forming the damaged layer; wherein the bonding the plurality of substantially quadrangular single crystal semiconductor substrates comprises exposing at least a portion of the supporting substrate between at least two of the substantially quadrangular single crystal semiconductor substrates; forming a plurality of single crystal semiconductor layers on the supporting substrate so as to be separated from each other, by separating each of the plurality of substantially quadrangular single crystal semiconductor substrates at the damaged layer; and forming 10 or more display panels having a screen size of more than or equal to 2 inches and less than or equal to 7 inches from each of the plurality of single crystal semiconductor layers, wherein a surface area of each of the plurality of substantially quadrangular single crystal semiconductor substrates accounts for 50% or more of a surface area of each of the plurality of substantially circular silicon wafers, and wherein each vertex of the plurality of substantially quadrangular single crystal semiconductor substrates is provided on each circumference of the plurality of substantially circular silicon wafers. 8. The manufacturing method of a display panel according to claim 6, wherein each of the plurality of substantially circular silicon wafers is 450 mm or 18 inches in diameter. 9. The manufacturing method of a display panel according to claim 7, wherein each of the plurality of substantially circular silicon wafers is 450 mm or 18 inches in diameter. 10. The manufacturing method of a display panel according to claim 6, wherein the element region in which the screen is formed comprises a plurality of pixels. 11. The manufacturing method of a display panel according to claim 6, further comprising: forming a driver circuit in one of the plurality of single crystal semiconductor layers, wherein the driver circuit is adjacent to the element region in which the screen is formed. 12. A manufacturing method of a semiconductor substrate comprising the steps of: cutting each of a plurality of substantially circular silicon wafers of 400 mm or more in diameter into a substantially quadrangular single crystal semiconductor substrate; forming a damaged layer by implantation of hydrogen ions in each of the plurality of substantially quadrangular single crystal semiconductor substrates; bonding the plurality of substantially quadrangular single crystal semiconductor substrates to a supporting substrate having an insulating surface after the step of forming the damaged layer; wherein the bonding the plurality of substantially quadrangular single crystal semiconductor substrates comprises exposing at least a portion of the supporting substrate between at least two of the substantially quadrangular single crystal semiconductor substrates; and forming a plurality of single crystal semiconductor layers on the supporting substrate so as to be separated from each other, by separating the plurality of substantially quadrangular single crystal semiconductor substrates at the damaged layer, wherein a surface area of each of the plurality of substantially quadrangular single crystal semiconductor substrates accounts for 50% or more of a surface area of each of the plurality of substantially circular silicon wafers, and wherein each vertex of the plurality of substantially quadrangular single crystal semiconductor substrates is provided on each circumference of the plurality of substantially circular silicon wafers. 13. The manufacturing method of a semiconductor substrate according to claim 12, wherein each of the plurality of substantially circular silicon wafers is 450 mm or 18 inches in diameter. 14. The manufacturing method of a display device according to claim 1, wherein an end portion of the supporting substrate is exposed, andwherein a width of the end portion is wider than a width of a space between adjacent single crystal semiconductor layers. 15. The manufacturing method of a display panel according to claim 6, wherein an end portion of the supporting substrate is exposed, andwherein a width of the end portion is wider than a width of a space between adjacent single crystal semiconductor layers. 16. The manufacturing method of a display panel according to claim 7, wherein an end portion of the supporting substrate is exposed, andwherein a width of the end portion is wider than a width of a space between adjacent single crystal semiconductor layers. 17. The manufacturing method of a semiconductor substrate according to claim 12, wherein an end portion of the supporting substrate is exposed, andwherein a width of the end portion is wider than a width of a space between adjacent single crystal semiconductor layers. 18. The manufacturing method of a display device according to claim 1, further comprising the step of: chamfering a peripheral end portion of each of the plurality of substantially quadrangular single crystal semiconductor substrates before the step of bonding the plurality of substantially quadrangular single crystal semiconductor substrates to the supporting substrate. 19. The manufacturing method of a display panel according to claim 6, further comprising the step of: chamfering a peripheral end portion of each of the plurality of substantially quadrangular single crystal semiconductor substrates before the step of bonding the plurality of substantially quadrangular single crystal semiconductor substrates to the supporting substrate. 20. The manufacturing method of a display panel according to claim 7, further comprising the step of: chamfering a peripheral end portion of each of the plurality of substantially quadrangular single crystal semiconductor substrates before the step of bonding the plurality of substantially quadrangular single crystal semiconductor substrates to the supporting substrate. 21. The manufacturing method of a semiconductor substrate according to claim 12, further comprising the step of: chamfering a peripheral end portion of each of the plurality of substantially quadrangular single crystal semiconductor substrates before the step of bonding the plurality of substantially quadrangular single crystal semiconductor substrates to the supporting substrate. 22. The manufacturing method of a display device according to claim 1, wherein the hydrogen ions are H3+ ions of 50% or more with respect to total ions. 23. The manufacturing method of a display device according to claim 1, further comprising: generating a crack in the damaged layer by thermal treatment after the step of bonding the plurality of substantially quadrangular single crystal semiconductor substrates to the supporting substrate. 24. The manufacturing method of a display panel according to claim 6, wherein a thickness of each of the plurality of single crystal semiconductor layers is 100 nm or less. 25. The manufacturing method of a display panel according to claim 7, wherein a thickness of each of the plurality of single crystal semiconductor layers is 100 nm or less. 26. The manufacturing method of a semiconductor substrate according to claim 12, wherein a thickness of each of the plurality of single crystal semiconductor layers is 100 nm or less.
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