초록 ▼

A method for treating a film of material, which can be defined on a substrate, e.g., silicon. The method includes providing a substrate comprising a cleaved surface, which had a porous silicon layer thereon. The substrate may have a distribution of hydrogen bearing particles defined from the cleaved

A method for treating a film of material, which can be defined on a substrate, e.g., silicon. The method includes providing a substrate comprising a cleaved surface, which had a porous silicon layer thereon. The substrate may have a distribution of hydrogen bearing particles defined from the cleaved surface to a region underlying said cleaved surface. The method also includes increasing a temperature of the cleaved surface to greater than about 1,000 Degrees Celsius while maintaining the cleaved surface in a etchant bearing environment to reduce a surface roughness value by about fifty percent and greater. Preferably, the value can be reduced by about eighty or ninety percent and greater, depending upon the embodiment.

대표청구항 ▼

1. A semiconductor substrate producing method comprising:forming a first porous silicon layer on at least one surface of a silicon substrate; forming a non-porous layer over said first porous layer; forming a second porous layer having a larger porosity than the first porous silicon layer at a const

1. A semiconductor substrate producing method comprising:forming a first porous silicon layer on at least one surface of a silicon substrate; forming a non-porous layer over said first porous layer; forming a second porous layer having a larger porosity than the first porous silicon layer at a constant depth from a surface of said first porous silicon layer, said second porous layer forming step comprising implanting ions into said first porous silicon layer with a given projection range; bonding said non-porous layer and a support substrate together, the support substrate being different than the silicon substrate; separating said silicon substrate into two portions at said second porous layer; removing at least said first porous layer provided over said support substrate to expose said non-porous layer; and smoothing said exposed non-porous layer by subjecting a surface of said non-porous layer using an etchant species during a thermal treatment. 2. The semiconductor substrate producing method according to claim 1, wherein said non-porous layer is formed on a surface of said first porous layer before said ion implanting step.3. The semiconductor substrate producing method according to claim 1 wherein said ions comprise hydrogen.4. The semiconductor substrate producing method according to claim 1 wherein said ions comprise at least one kind of noble gas, hydrogen and nitrogen.5. The semiconductor substrate producing method according to claim 1 wherein said separating step is performed by heat-treating said silicon substrate.6. The semiconductor substrate producing method according to claim 1 wherein said separating step is performed by pressurizing said silicon substrate in a direction perpendicular to a surface thereof.7. The semiconductor substrate producing method according to claim 1 wherein said separating step is performed by drawing said silicon substrate in a direction perpendicular to a surface thereof.8. The semiconductor substrate producing method according to claim 1 wherein said separating step is performed by applying a shearing force to said silicon substrate.9. The semiconductor substrate producing method according to claim 1 wherein said non-porous layer is made of single-crystal Si.10. The semiconductor substrate producing method according to claim 1 wherein said non-porous layer is made of single-crystal silicon having an oxidized silicon layer on a surface to be bonded.11. The semiconductor substrate producing method according to claim 1 wherein the etchant comprises HCl.12. A semiconductor substrate producing method comprising:forming on a surface of a silicon substrate a first porous silicon layer, a second porous silicon layer and a third porous silicon layer, wherein the second porous silicon layer is located under the first porous silicon layer and has a porosity higher than the first porous silicon layer, and the third porous silicon layer is located under the second porous silicon layer and has a porosity lower than the second porous silicon layer; forming a non-porous monocrystalline semiconductor layer on the first porous silicon layer; bonding the non-porous monocrystalline semiconductor layer located on the silicon substrate to another substrate; and separating the silicon substrate and the other substrate at the second porous silicon layer so that the non-porous monocrystalline semiconductor layer remains on the other substrate; and removing the first porous silicon layer from the non-porous monocrystalline semiconductor layer; and subjecting a surface of the non-porous monocrystalline semiconductor layer with thermal energy and an etchant to remove a surface roughness from a first value to a second predetermined value. 13. The semiconductor substrate producing method according to claim 12 wherein said forming step for forming said first, second and third porous silicon layers comprises a step for turning a surface portion of said silicon substrate porous.14. The semiconductor substrate producing method according to claim 13 wherein said second porous silicon layer is formed by means of ion implantation.15. The semiconductor substrate producing method according to claim 12 wherein said non-porous monocrystalline semiconductor layer is formed by epitaxial growth.16. The semiconductor substrate producing method according to claim 12 wherein the etchant comprises HCl.17. A semiconductor substrate producing method comprising:forming on a surface of a silicon substrate a first porous silicon layer; implanting ions into the first porous silicon layer to form a second porous silicon layer having a porosity higher than the first porous silicon layer at a constant depth from a surface of the first porous silicon layer; forming a non-porous monocrystalline semiconductor layer on the first porous silicon layer; bonding the non-porous monocrystalline semiconductor layer located on the silicon substrate to another substrate; and separating the silicon substrate and the other substrate at the second porous silicon layer so that the non-porous monocrystalline semiconductor layer remains on the other substrate; and applying a combination of thermal treatment and an etchant to a surface of the non-porous monocrystalline semiconductor layer to reduce a surface roughness to a predetermined value. 18. The method of claim 17 wherein the thermal treatment increases a temperature of the non-porous layer to about at least 1,000 Degrees Celsius.19. The method of claim 18 wherein the temperature is increased at least about 10 Degrees Celsius per second.20. The method of claim 18 wherein the temperature is increased at least about 20 Degrees Celsius per second.21. The method of claim 17 wherein the predetermined value is less than about two nanometers root mean square.22. The method of claim 17 wherein the etchant comprises a hydrogen bearing compound.23. The method of claim 17 wherein the etchant comprises a halogen bearing compound selected from at least Cl2, HBr, HI, and HF.24. The method of claim 17 wherein the etchant comprises HCl.25. The method of claim 17 wherein the etchant comprises a fluorine bearing compound.26. The method of claim 25 wherein the fluorine bearing compound is selected from SF6, CF4, NF3, and CCl2F2.27. A semiconductor substrate producing method comprising:forming a first porous silicon layer on at least one surface of a silicon substrate; forming a non-porous layer on said first porous layer; forming a second porous layer having a larger porosity than the first porous silicon layer within said first porous silicon layer by implanting ions into said first porous silicon layer; bonding said non-porous layer and a support substrate together, the support substrate being different than the silicon substrate; separating said silicon substrate into two portions at said second porous layer; removing said first and second porous layers provided over said support substrate to expose said non-porous layer; and smoothing said exposed non-porous layer by heating a surface of said non-porous layer within an atmosphere containing hydrogen and an etchant. 28. A method of producing a semiconductor substrate, comprising:providing a silicon substrate having a porous silicon layer on a surface of said silicon substrate; providing a bonding substrate; bonding said silicon substrate and said bonding substrate together; separating said silicon substrate into two portions at said porous silicon layer, said bonding substrate separated from said silicon substrate having a first porous material on a surface of said bonding substrate, said silicon substrate separated from said bonding substrate having a second porous material on said surface of said silicon substrate; removing said porous material from at least one of said substrates to expose a non-porous layer of said at least one of said substrates; smoothing said exposed non-porous layer by heating a surface of said non-porous layer within an atmosphere containing hydrogen atoms and an etchant. 29. The method of claim 28, wherein said at least one of said substrates is said bonding substrate and said removed porous material is said first porous material.30. The method of claim 28, wherein said porous silicon layer of said silicon substrate includes first and second porous layers.31. The method of claim 30, wherein said second porous layer is more porous than said first porous layer, said silicon substrate being separated into two portions at said second porous layer.32. The method of claim 31, wherein said second porous layer is provided within said first porous layer.33. The method of claim 28, wherein said at least one of said substrates is said silicon substrate and said removed porous material is said second porous material.34. The method of claim 28 wherein the etchant comprises HCl.