Abstract: An InN nanorod epitaxial wafer grown on an aluminum foil substrate (1) sequentially comprises the aluminum foil substrate (1), an amorphous aluminum oxide layer (2), an AlN layer (3) and an InN nanorod layer, (4) from bottom to top. The wafer can be prepared by pretreating the aluminum foil substrate with an oxidized surface and carrying out an in-situ annealing treatment; then, in a molecular beam epitaxial growth process, forming AlN nucleation sites on the annealed aluminum foil substrate, nucleating on the AlN and growing InN nanorods on the AlN, where the substrate temperature is 400-700° C., the pressure of a reaction chamber is 4.0-10.0×10?5 Torr and the beam ratio of V/III is 20-40.

Abstract: An InN nanorod epitaxial wafer grown on an aluminum foil substrate (1) sequentially comprises the aluminum foil substrate (1), an amorphous aluminum oxide layer (2), an AlN layer (3) and an InN nanorod layer, (4) from bottom to top. The wafer can be prepared by pretreating the aluminum foil substrate with an oxidized surface and carrying out an in-situ annealing treatment; then, in a molecular beam epitaxial growth process, forming AlN nucleation sites on the annealed aluminum foil substrate, nucleating on the AlN and growing InN nanorods on the AlN. where the substrate temperature is 400-700° C., the pressure of a reaction chamber is 4.0-10.0×10?5 Torr and the beam ratio of V/III is 20-40.

Abstract: Disclosed is a preparation method for a GaAs thin film grown on an Si substrate, said method comprising the following steps: (1) Si (111) substrate cleaning; (2) Si (111) substrate preprocessing; (3) Si (111) substrate oxide film removal; (4) first InxGa1-xAs buffer layer growth; (5) first InxGa1-xAs buffer layer in situ annealing; (6) GaAs buffer layer growth; (7) GaAs buffer layer in situ annealing; (8) second InxGa1-xAs buffer layer growth; (9) second InxGa1-xAs buffer layer in situ annealing; (10) GaAs epitaxial thin film growth. Also disclosed is a GaAs thin film grown on an Si substrate. The GaAs thin film obtained by the present invention has a good crystal quality, an even surface, and a positive promotional significance with regard to the preparation of semiconductor devices, particularly in the field of solar cells.

Abstract: Disclosed is a preparation method for a GaAs thin film grown on an Si substrate, said method comprising the following steps: (1) Si (111) substrate cleaning; (2) Si (111) substrate preprocessing; (3) Si (111) substrate oxide film removal; (4) first InxGa1-xAs buffer layer growth; (5) first InxGa1-xAs buffer layer in situ annealing; (6) GaAs buffer layer growth; (7) GaAs buffer layer in situ annealing; (8) second InxGa1-xAs buffer layer growth; (9) second InxGa1-xAs buffer layer in situ annealing; (10) GaAs epitaxial thin film growth. Also disclosed is a GaAs thin film grown on an Si substrate. The GaAs thin film obtained by the present invention has a good crystal quality, an even surface, and a positive promotional significance with regard to the preparation of semiconductor devices, particularly in the field of solar cells.

Abstract: The present invention discloses an InGaAs film grown on a Si substrate, which comprises a Si substrate, a low temperature In0.4Ga0.6As buffer layer, a high temperature In0.4Ga0.6As buffer layer and an In0.53Ga0.47As epitaxial film, arranged sequentially, wherein the low temperature In0.4Ga0.6As buffer layer is an In0.4Ga0.6As buffer layer grown at the temperature of 350˜380° C.; the high temperature In0.4Ga0.6As buffer layer is an In0.4Ga0.6As buffer layer grown at the temperature of 500˜540° C., and the sum of the thickness of the low temperature In0.4Ga0.6As buffer layer and the thickness of the high temperature In0.4Ga0.6As buffer layer is 10˜20 nm. The invention further discloses a method for preparing the InGaAs film. The InGaAs film grown on the Si substrate of the present invention has good crystal quality, is almost completely relaxed, and has a simple preparation process.

Abstract: The present invention discloses an InGaAs film grown on a Si substrate, which comprises a Si substrate, a low temperature In0.4Ga0.6As buffer layer, a high temperature In0.4Ga0.6As buffer layer and an In0.53Ga0.47As expitaxial film, arranged sequentially, wherein the low temperature In0.4Ga0.6As buffer layer is an In0.4Ga0.6As buffer layer grown at the temperature of 350˜380®C.; the high temperature In0.4Ga0.6As buffer layer is an In0.4Ga0.6As buffer layer grown at the temperature of 500˜540° C., and the sum of the thickness of the low temperature In0.4Ga0.6As buffer layer and the thickness of the high temperature In0.4Ga0.6As buffer layer is 10˜20 nm. The invention further discloses a method for preparing the InGaAs film. The InGaAs film grown on the Si substrate of the present invention has good crystal quality, is almost completely relaxed, and has a simple preparation process.