A method of forming an epitaxially grown layer, preferably by providing a region of weakness in a support substrate and transferring a nucleation portion to the support substrate by bonding. A remainder portion of the support substrate is detached at the region of weakness and an epitaxial layer is
A method of forming an epitaxially grown layer, preferably by providing a region of weakness in a support substrate and transferring a nucleation portion to the support substrate by bonding. A remainder portion of the support substrate is detached at the region of weakness and an epitaxial layer is grown on the nucleation portion. The remainder portion is separated or otherwise removed from the support portion.
대표청구항▼
1. A multilayer substrate for producing a wafer with an epitaxial layer of improved quality, the substrate comprising: a support substrate;a first region of weakness within the support substrate for dividing the support substrate into a support portion and a support remainder portion that are dispos
1. A multilayer substrate for producing a wafer with an epitaxial layer of improved quality, the substrate comprising: a support substrate;a first region of weakness within the support substrate for dividing the support substrate into a support portion and a support remainder portion that are disposed on opposite sides of the first region of weakness, and being configured for facilitating detachment of the support portion from the support remainder portion, wherein the support portion is configured for providing support during epitaxial growth of an epitaxial layer;a nucleation portion that forms part of a nucleation substrate that is bonded to the support portion to improve conditions for growing the epitaxial layer thereon; anda second region of weakness disposed within the nucleation substrate for dividing the nucleation substrate into the nucleation portion and a nucleation remainder portion that are disposed on opposite sides of the second region of weakness, and being configured for facilitating detachment of the nucleation portion from the nucleation remainder portion, wherein the nucleation and support portions are disposed between the first and second regions of weakness,wherein the first and second regions of weakness are such that the energy budget required to effect detachment at the first region of weakness is greater than the energy budget required to effect detachment at the second region of weakness. 2. The multilayer substrate of claim 1 wherein the first region of weakness includes implanted atomic species. 3. The multilayer substrate of claim 1 wherein the second region of weakness includes implanted atomic species. 4. The multilayer substrate of claim 1 further comprising first and second bond enhancing layers associated with the support substrate and the nucleation substrate, respectively, and bonded to each other, wherein the enhancing layers are selected to improve bonding between the support and nucleation portions. 5. The multilayer substrate of claim 4 wherein the bond enhancing layers are made of dielectric material. 6. The multilayer substrate of claim 4 wherein the bond enhancing layers are made of silicon oxide, silicon nitride, or silicon oxynitride. 7. The multilayer substrate of claim 1 wherein the support substrate comprises a material selected from silicon, sapphire, polycrystalline silicon carbide, 6H or 4H monocrystalline silicon carbide, gallium nitride, aluminum nitride, and zinc oxide. 8. The multilayer substrate of claim 1 wherein the nucleation portion is made of a material selected from gallium nitride, silicon, silicon carbide, sapphire, diamond, gallium arsenide, and aluminum nitride. 9. The multilayer substrate of claim 1 further comprising an epitaxial layer on the nucleation portion. 10. The multilayer substrate of claim 9 wherein the epitaxial layer is present at a thickness sufficient to be self-supporting. 11. The multilayer substrate of claim 9 further comprising a first layer of metal on the epitaxial layer. 12. The multilayer substrate of claim 11 further comprising a second layer of metal associated with an acceptor substrate that is bonded to the first metal layer on the epitaxial layer. 13. The multilayer substrate of claim 9 wherein the epitaxial layer comprises a wide band-gap semiconductor material. 14. The multilayer substrate of claim 9 wherein the epitaxial layer comprises gallium nitride or cubic silicon carbide. 15. The multilayer substrate of claim 1 wherein the support remainder portion and the support portion are detached at the first region of weakness but remain sufficiently engaged to cooperatively provide sufficient strength to support the epitaxial growth of the epitaxial layer on the nucleation portion. 16. The multilayer substrate of claim 1 further comprising a nucleation layer on the nucleation portion to further improve the conditions for growing the epitaxial layer thereon. 17. The multilayer substrate of claim 16 wherein the nucleation layer comprises gallium nitride, silicon, silicon carbide, sapphire, diamond, gallium arsenide, and aluminum nitride. 18. The multilayer substrate of claim 16 further comprising an epitaxial layer on the nucleation layer, wherein the epitaxial layer is made of the same material as that of the nucleation portion or the nucleation layer. 19. A multilayer substrate for producing a wafer with an epitaxial layer of improved quality, the substrate comprising: a support remainder portion of a support substrate;a thin support portion of the support substrate which is resting on and frictionally engaged with the support remainder portion, the thin support portion having been detached from the support remainder portion at a first region of weakness within the support substrate;a thin nucleation portion of a nucleation substrate that is bonded to the support portion, the thin nucleation portion having been detached from the nucleation substrate at a second region of weakness within the nucleation substrate; andan epitaxial layer grown on the thin nucleation portion. 20. The multilayer structure of claim 19 further comprising a device for keeping the support remainder portion against the thin support portion and the thin nucleation portion.
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