Fabrication method for micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping and applications thereof

What is claimed is: 1. A fabrication method for micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping, wherein the method comprises the following steps: (1) according to a required geometry of microlens arrays for use, a flexible microlens array template is assembled by pasting a flexible film on a porous plate; (2) said flexible microlens array template is fixed in an injection mold cavity; an injection mold defining the injection mold cavity is heated to a given temperature; an injection molding machine injects polymer melt into said injection mold cavity; then a molded polymer part with the microlens arrays distributed on its surface is molded; (3) said molded polymer part with the microlens arrays on its surface is used as a template for imprinting to form a negative feature of the microlens arrays on a surface of an ultra-pure aluminum foil; anode oxidation is subsequently performed on said aluminum foil to form nanopores on its surface; so an aluminum template with negative micro-/nanostructured compound-eye arrays is fabricated; (4) said aluminum template with negative compound-eye arrays is fixed in the injection mold cavity; said injection mold is heated to a given temperature; the injection molding machine injects polymer melt into said injection mold cavity; then a molded polymer part with micro-/nanostructured compound-eye arrays distributed on its surface is molded. 2. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , characterized in that for said flexible microlens array template in said step (1), microholes are evenly distributed in said porous plate; a cross-sectional shape of each of the microholes is round or ellipse, and a diameter and a pitch of each of the micoholes are all micron-sized. 3. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , characterized in that for said flexible microlens array template in said step (1), said flexible film is made of poly(ethylene terephthalate) or polypropylene and has a micron-sized thickness. 4. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , characterized in that in said step (2), said injection molding machine is employed to plasticize and melt a polymer and inject the polymer melt into said injection mold cavity with the flexible microlens array template fixed on an inner surface of the injection mold; said flexible film on a top of said porous plate is deformed to arc-like profiles towards into the microholes and a certain amount of the polymer melt is squeezed into the microholes in said porous plate under melt filling pressure or compression force; the polymer melt in said injection mold cavity is packed and cooled down and the injection mold is opened, and then the molded polymer part, on which the microlens arrays are distributed orderly and periodically, is taken out of said mold cavity. 5. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , characterized in that for said molded polymer part in said step (2), a diameter, a height, and a pitch of each of the microlens are all micron-sized. 6. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , characterized in that in said step (3), a thickness of said ultra-pure aluminum foil is 0.1˜2 mm; said aluminum foil is pasted tightly with the surface of said molded polymer part with the microlens arrays, and is placed in a molding machine; by applying a molding pressure, the microlens arrays on said molded polymer part are imprinted onto said aluminum foil, and a negative feature of the microlens arrays is formed on its surface; nanopores are formed on the surface of said aluminum foil with the microlens arrays via anode oxidation, in which the aluminum foil being pretreated is used as working electrode and a stainless-steel plate as counter electrode; said nanopores are each in a shape of a cylinder, a sphere, or a cone; so the aluminum template with negative micro-/nanostructured compound-eye arrays is fabricated. 7. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , characterized in that in said step (4), said injection molding machine is employed to plasticize and melt a polymer and inject the polymer melt into said injection mold cavity with said aluminum template with the negative compound-eye arrays fixed on its surface; said polymer melt is filled into micro feature and nanopores in said aluminum template under melt filling pressure or compression force; the polymer melt in said injection mold cavity is packed and cooled down and the injection mold is opened, and then the molded polymer part, on which micro-/nanostructured dual-level compound-eye arrays comprising orderly distributed convex semi-sphere microlens and densely distributed nanopillars are formed, is taken out of said mold cavity. 8. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 7 , characterized in that on the molded polymer part in said step (4), a diameter, a height, and a pitch of the convex semi-sphere microlens are all micron-sized, and said nanopillars are each being in a shape of a cylinder, a sphere, or a cone. 9. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , characterized in that in said steps (2) and (4), said flexible microlens array template and said aluminum template with negative compound-eye arrays are fixed on said injection mold cavity by a screw thread or a clamping slot; the polymer used for injection molding is polyethylene, polypropylene, polystyrene, poly(methyl methacrylate), polycarbonate, poly(vinylidene fluoride), cycloolefin copolymer or polyurethane. 10. The fabrication method for the micro-/nanostructured compound-eye arrays with hydrophobicity and light trapping according to claim 1 , wherein said molded polymer part with the micro-/nanostructured compound-eye arrays is employed in the fields of optical imaging, solar cells, anti-pollution, anti-dust, anti-icing, anti-corrosion, drag reduction, cell culture, or microfluidics; wherein hydrophobicity and light trapping property of the molded polymer part in said step (4) are characterized by measuring a contact angle of a microdroplet and light reflectivity on its surface.