A method is disclosed that includes the steps outlined below. An epitaxial layer is formed on a first semiconductor substrate. At least one implant species is implanted between the epitaxial layer and the first semiconductor substrate to form an ion-implanted layer. The epitaxial layer is bonded to
A method is disclosed that includes the steps outlined below. An epitaxial layer is formed on a first semiconductor substrate. At least one implant species is implanted between the epitaxial layer and the first semiconductor substrate to form an ion-implanted layer. The epitaxial layer is bonded to a bonding oxide layer of a second semiconductor substrate. The first semiconductor substrate is separated from the ion-implanted layer.
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1. A method, comprising: implanting at least one implant species between a first semiconductor substrate and an epitaxial layer which is formed on the first semiconductor substrate, to form an ion-implanted layer which is in contact with and disposed between the epitaxial layer and the first semicon
1. A method, comprising: implanting at least one implant species between a first semiconductor substrate and an epitaxial layer which is formed on the first semiconductor substrate, to form an ion-implanted layer which is in contact with and disposed between the epitaxial layer and the first semiconductor substrate;after implanting the at least one implant species between the first semiconductor substrate and the epitaxial layer, without forming any layer on the epitaxial layer, bonding the epitaxial layer to a bonding oxide layer of a second semiconductor substrate; andremoving the first semiconductor substrate together with a portion of the ion-implanted layer from a remaining portion of the ion-implanted layer and the epitaxial layer, without removing any portion of the epitaxial layer, to separate the first semiconductor substrate from the epitaxial layer. 2. The method of claim 1, further comprising: forming a first semiconductor device portion on the epitaxial layer. 3. The method of claim 1, further comprising: polishing the epitaxial layer by removing the remaining portion of the ion-implanted layer from the epitaxial layer, after separating the first semiconductor substrate from the epitaxial layer. 4. The method of claim 1, wherein a thickness of the epitaxial layer is in a range of 1-10 micrometers. 5. The method of claim 2, wherein the second semiconductor substrate comprises a second semiconductor device portion. 6. The method of claim 5, wherein the second semiconductor device portion is capped by the bonding oxide layer. 7. The method of claim 5, further comprising: forming at least one via through a second semiconductor device portion formed on the epitaxial layer, the epitaxial layer, and the bonding oxide layer, for connecting the first semiconductor device portion and the second semiconductor device portion. 8. The method of claim 7, further comprising: forming an interconnect layer on the second semiconductor device portion. 9. The method of claim 7, wherein a diameter of the at least one via is less than 4 micrometers. 10. The method of claim 1, wherein the epitaxial layer is bonded to the bonding oxide layer of the second semiconductor substrate through a first oxide layer introduced from the epitaxial layer. 11. The method of claim 1, wherein the at least one implant species comprises at least one of He and H. 12. The method of claim 1, wherein the epitaxial layer comprises at least one of Ge, InP and GaAs. 13. A method, comprising: forming an ion-implanted layer which is in contact with and disposed between a first semiconductor substrate and an epitaxial layer which is formed on the first semiconductor substrate, by implanting at least one implant species over the epitaxial layer;after forming the ion-implanted layer, without forming any layer on the epitaxial layer, bonding the epitaxial layer on the first semiconductor substrate to a bonding oxide layer of a second semiconductor substrate;removing the first semiconductor substrate together with a portion of the ion-implanted layer from a remaining portion of the ion-implanted layer and the epitaxial layer, without removing any portion of the epitaxial layer, to separate the first semiconductor substrate from the epitaxial layer;forming a first semiconductor device portion on the epitaxial layer;forming at least one via through the first semiconductor device portion, the epitaxial layer, and the bonding oxide layer; andforming an interconnect layer on the first semiconductor device portion. 14. The method of claim 13, further comprising: polishing the epitaxial layer by removing the remaining portion of the ion-implanted layer from the epitaxial layer, after separating the first semiconductor substrate from the epitaxial layer. 15. The method of claim 13, wherein a thickness of the epitaxial layer is in a range of 1-10 micrometers. 16. The method of claim 13, wherein a diameter of the at least one via is less than 4 micrometers. 17. The method of claim 13, wherein the epitaxial layer is bonded to the bonding oxide layer of the second semiconductor substrate through a first oxide layer introduced from the epitaxial layer. 18. The method of claim 13, wherein the epitaxial layer comprises at least one of Ge, InP and GaAs. 19. The method of claim 1, further comprising: forming an interconnect layer between the bonding oxide layer and a semiconductor device portion of the second semiconductor substrate,wherein the at least one via penetrates through the semiconductor device portion, the epitaxial layer, and the bonding oxide layer of the second semiconductor substrate, to contact the interconnect layer. 20. The method of claim 13, further comprising: forming a second interconnect layer between the bonding oxide layer and a second semiconductor device portion of the second semiconductor substrate,wherein the at least one via penetrates through the first semiconductor device portion, the epitaxial layer, and the bonding oxide layer of the second semiconductor substrate, to contact the second interconnect layer. 21. A method, comprising: forming an ion-implanted layer which is in contact with and disposed between a first semiconductor substrate and an epitaxial layer which is formed on the first semiconductor substrate, by implanting at least one implant species over the epitaxial layer, wherein a thickness of the epitaxial layer is in a range of 1-10 micrometers;after forming the ion-implanted layer, without forming any layer on the epitaxial layer, bonding the epitaxial layer on the first semiconductor substrate to a bonding oxide layer of a second semiconductor substrate through a first oxide layer introduced from the epitaxial layer;removing the first semiconductor substrate together with a portion of the ion-implanted layer from a remaining portion of the ion-implanted layer and the epitaxial layer, without removing any portion of the epitaxial layer, to separate the first semiconductor substrate from the epitaxial layer;forming a first semiconductor device portion on the epitaxial layer;forming vias through the first semiconductor device portion, the epitaxial layer, and the bonding oxide layer, wherein a diameter of each one of the vias is less than 4 micrometers;forming a first interconnect layer on the first semiconductor device portion; andforming a second interconnect layer between the bonding oxide layer and a second semiconductor device portion of the second semiconductor substrate,wherein the vias penetrate through the first semiconductor device portion, the epitaxial layer, and the bonding oxide layer of the second semiconductor substrate, to contact the second interconnect layer.
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