초록 ▼

An object of the present invention is to provide a method for manufacturing an SOI substrate provided with a semiconductor layer which can be used practically even where a substrate having a low upper temperature limit such as a glass substrate is used. The manufacturing method compromises the steps

An object of the present invention is to provide a method for manufacturing an SOI substrate provided with a semiconductor layer which can be used practically even where a substrate having a low upper temperature limit such as a glass substrate is used. The manufacturing method compromises the steps of preparing a semiconductor substrate provided with a bonding layer formed on a surface thereof and a separation layer formed at a predetermined depth from the surface thereof, bonding the bonding layer to the base substrate having a distortion point of 700° C. or lower so that the semiconductor substrate and the base substrate face each other, and separating a part of the semiconductor substrate at the separation layer by heat treatment in order to form a single-crystal semiconductor layer over the base substrate. In the manufacturing method, a substrate which shrinks isotropically at least by the heat treatment is used as the base substrate.

대표청구항 ▼

1. A method for manufacturing an SOI substrate, comprising: forming a bonding layer on a surface of a semiconductor substrate;forming a separation layer in the semiconductor substrate at a predetermined depth from the surface of the semiconductor substrate after the formation of the bonding layer;bo

1. A method for manufacturing an SOI substrate, comprising: forming a bonding layer on a surface of a semiconductor substrate;forming a separation layer in the semiconductor substrate at a predetermined depth from the surface of the semiconductor substrate after the formation of the bonding layer;bonding the bonding layer to a base substrate so that the semiconductor substrate and the base substrate face each other; andforming a single-crystal semiconductor layer over the base substrate by separating a part of the semiconductor substrate at the separation layer by a heat treatment,wherein the base substrate shrinks isotropically by the heat treatment, andwherein the base substrate has a distortion point of 700° C. or lower. 2. The method for manufacturing the SOI substrate according to claim 1, wherein a nitrogen-containing layer is used as the bonding layer. 3. The method for manufacturing the SOI substrate according to claim 1, wherein the heat treatment is performed at a temperature ranging from 400° C. or higher to 700° C. or lower. 4. The method for manufacturing the SOI substrate according to claim 1, wherein the base substrate has a thermal expansion coefficient which is the same as or substantially the same as, or larger than a thermal expansion coefficient of the semiconductor substrate. 5. The method for manufacturing the SOI substrate according to claim 1, wherein the thermal expansion coefficient of the base substrate is 0.85 times to twice as high as the thermal expansion coefficient of the semiconductor substrate. 6. The method for manufacturing the SOI substrate according to claim 1, wherein a silicon substrate is used as the semiconductor substrate and a substrate having a thermal expansion coefficient ranging from 2.3×10−6 to 5.0×10−6/° C. is used as the base substrate. 7. The method for manufacturing the SOI substrate according to claim 1, wherein a glass substrate is used as the base substrate. 8. The method for manufacturing the SOI substrate according to claim 7, wherein a surface of the glass substrate is polished. 9. The method for manufacturing the SOI substrate according to claim 7, wherein a mean surface roughness of the glass substrate is 0.3 nm or less. 10. A method for manufacturing an SOI substrate, comprising: preparing a semiconductor substrate provided with an insulating layer formed on a surface thereof, a bonding layer formed over the insulating layer, and a separation layer formed at a predetermined depth from the surface thereof;bonding the bonding layer to a base substrate so that the semiconductor substrate and the base substrate face each other; andforming a single-crystal semiconductor layer over the base substrate by separating a part of the semiconductor substrate at the separation layer by a heat treatment,wherein a nitrogen-containing layer is used as the bonding layer,wherein the base substrate shrinks isotropically by the heat treatment, andwherein the base substrate has a distortion point of 700° C. or lower. 11. The method for manufacturing the SOI substrate according to claim 10, wherein a silicon oxide film formed by a chemical vapor deposition method using an organosilane gas is used as the insulating layer. 12. The method for manufacturing the SOI substrate according to claim 10, wherein the heat treatment is performed at a temperature ranging from 400° C. or higher to 700° C. or lower. 13. The method for manufacturing the SOI substrate according to claim 10, wherein the base substrate has a thermal expansion coefficient which is the same as or substantially the same as, or larger than a thermal expansion coefficient of the semiconductor substrate. 14. The method for manufacturing the SOI substrate according to claim 10, wherein the thermal expansion coefficient of the base substrate is 0.85 times to twice as high as the thermal expansion coefficient of the semiconductor substrate. 15. The method for manufacturing the SOI substrate according to claim 10, wherein a silicon substrate is used as the semiconductor substrate and a substrate having a thermal expansion coefficient ranging from 2.3×10−6 to5.0×10−6/° C. is used as the base substrate. 16. The method for manufacturing the SOI substrate according to claim 10, wherein a glass substrate is used as the base substrate. 17. The method for manufacturing the SOI substrate according to claim 16, wherein a surface of the glass substrate is polished. 18. The method for manufacturing the SOI substrate according to claim 16, wherein a mean surface roughness of the glass substrate is 0.3 nm or less. 19. A method for manufacturing an SOI substrate, comprising: preparing a semiconductor substrate provided with a bonding layer formed on a surface thereof and a separation layer formed at a predetermined depth from the surface thereof;bonding the bonding layer to an insulating layer formed over a base substrate so that the semiconductor substrate and the base substrate face each other; andforming a single-crystal semiconductor layer over the base substrate by separating a part of the semiconductor substrate at the separation layer by a heat treatment,wherein the base substrate which shrinks isotropically by the heat treatment, andwherein the base substrate has a distortion point of 700° C. or lower. 20. The method for manufacturing the SOI substrate according to claim 19, wherein a silicon oxide film formed by a chemical vapor deposition method using an organosilane gas is used as the bonding layer and wherein a nitrogen-containing layer is used as the insulating layer. 21. The method for manufacturing the SOI substrate according to claim 19, wherein a nitrogen-containing layer is used as the bonding layer. 22. The method for manufacturing the SOI substrate according to claim 19, wherein the heat treatment is performed at a temperature ranging from 400° C. or higher to 700° C. or lower. 23. The method for manufacturing the SOI substrate according to claim 19, wherein the base substrate has a thermal expansion coefficient which is the same as or substantially the same as, or larger than a thermal expansion coefficient of the semiconductor substrate. 24. The method for manufacturing the SOI substrate according to claim 19, wherein the thermal expansion coefficient of the base substrate is 0.85 times to twice as high as the thermal expansion coefficient of the semiconductor substrate. 25. The method for manufacturing the SOI substrate according to claim 19, wherein a silicon substrate is used as the semiconductor substrate and a substrate having a thermal expansion coefficient ranging from 2.3×10−6 to 5.0×10−6/° C. is used as the base substrate. 26. The method for manufacturing the SOI substrate according to claim 19, wherein a glass substrate is used as the base substrate. 27. The method for manufacturing the SOI substrate according to claim 26, wherein a surface of the glass substrate is polished. 28. The method for manufacturing the SOI substrate according to claim 26, wherein a mean surface roughness of the glass substrate is 0.3 nm or less. 29. A method for manufacturing a semiconductor device, comprising: forming a separation layer at a predetermined depth from a surface of a semiconductor substrate by adding ions to the semiconductor substrate;forming a bonding layer over the semiconductor substrate;bonding the bonding layer to a base substrate so that the semiconductor substrate and the base substrate face each other;forming a single-crystal semiconductor layer over the base substrate by separating a part of the semiconductor substrate at the separation layer by a heat treatment;forming at least one semiconductor island by patterning the single-crystal semiconductor layer; andforming a gate electrode over the semiconductor island with a gate insulating film interposed therebetween,wherein the base substrate having a distortion point of 700° C. or lower, andwherein the base substrate shrinks isotropically by the heat treatment. 30. The method for manufacturing the semiconductor device according to claim 29, wherein the step of adding ions is performed through an insulating film formed on the semiconductor substrate. 31. The method for manufacturing the semiconductor device according to claim 30, wherein the insulating film includes silicon oxide. 32. The method for manufacturing the semiconductor device according to claim 30, wherein a silicon oxide film formed by a chemical vapor deposition method using an organosilane gas is used as the bonding layer and wherein a nitrogen-containing layer is used as the insulating film. 33. The method for manufacturing the semiconductor device according to claim 29, wherein the ions added to the semiconductor substrate includes hydrogen ion. 34. The method for manufacturing the semiconductor device according to claim 29, wherein the predetermined depth of the separation layer from the surface of the semiconductor substrate is in a range of greater than or equal to 10 nm and less than or equal to 500 nm. 35. The method for manufacturing the semiconductor device according to claim 29, wherein a nitrogen-containing layer is used as the bonding layer. 36. The method for manufacturing the semiconductor device according to claim 29, wherein the heat treatment is performed at a temperature ranging from 400° C. or higher to 700° C. or lower. 37. The method for manufacturing the semiconductor device according to claim 29, wherein the base substrate has a thermal expansion coefficient which is the same as or substantially the same as, or larger than a thermal expansion coefficient of the semiconductor substrate. 38. The method for manufacturing the semiconductor device according to claim 29, wherein the thermal expansion coefficient of the base substrate is 0.85 times to twice as high as the thermal expansion coefficient of the semiconductor substrate. 39. The method for manufacturing the semiconductor device according to claim 29, wherein a silicon substrate is used as the semiconductor substrate and a substrate having a thermal expansion coefficient ranging from 2.3×10−6 to 5.0×10−6/° C. is used as the base substrate. 40. The method for manufacturing the semiconductor device according to claim 29, wherein a glass substrate is used as the base substrate. 41. The method for manufacturing the semiconductor device according to claim 40, wherein a surface of the glass substrate is polished. 42. The method for manufacturing the semiconductor device according to claim 40, wherein a mean surface roughness of the glass substrate is 0.3 nm or less