Adhesion element with variable surface adhesive force and method of manufacturing the same

What is claimed is: 1. An adhesion element with variable surface adhesive force for adhering to an object, comprising: a substrate; a heating layer formed on one side of the substrate, wherein a temperature of the heating layer is changeable by a power supply; a buffer layer formed on the heating layer; and a nanostructure array formed on the buffer layer, the nanostructure array being made of a metallic glass material and comprising a plurality of nanostructures which are spaced apart from one another and together form an ordered array, wherein a plurality of gas chambers are formed by the nanostructure array. 2. The adhesion element of claim 1 , wherein the heating layer comprises a metallic layer, and the buffer layer comprises a metal oxide layer or a nitride layer. 3. The adhesion element of claim 1 , wherein each nanostructure comprises a hollow tubular structure with a central axis perpendicular to a surface of the buffer layer, and one end of the hollow tubular structure is connected to the buffer layer and the other end of the hollow tubular structure is an open end. 4. The adhesion element of claim 3 , wherein a diameter of the hollow tubular structure ranges from 10 nm to 100 μm, and a height-to-width ratio of the hollow tubular structure ranges from 1:0.5 to 1:10. 5. The adhesion element of claim 3 , wherein a wall thickness-to-diameter ratio of the hollow tubular structure ranges from 1:2 to 1:10. 6. The adhesion element of claim 3 , wherein a duty ratio of the plurality of nanostructures ranges from 0.5 to 6. 7. The adhesion element of claim 1 , further comprising a power supply unit electrically connected to the heating layer for applying an adjustable voltage to the heating layer. 8. The adhesion element of claim 7 , wherein the adjustable voltage ranges from 0.5V to 3V. 9. The adhesion element of claim 7 , wherein the surface adhesive force of the nanostructure array to the object is reduced with an increase in the adjustable voltage. 10. The adhesion element of claim 7 , wherein under the same adjustable voltage, the surface adhesive force of the nanostructure array to the object during a temperature increase is less than the surface adhesive force of the nanostructure array to the object during a temperature decrease. 11. The adhesion element of claim 1 , wherein the metallic glass material comprises at least one material selected from the group consisting of a zirconium-based metallic glass, a titanium-based metallic glass, a palladium-based metallic glass, an iron-based metallic glass, a copper-based metallic glass, a nickel-based metallic glass, an aluminum-based metallic glass, a tungsten-based metallic glass, and a magnesium-based metallic glass. 12. A method of manufacturing the adhesion element with variable surface adhesive force as claimed in claim 1 , comprising: providing a substrate; forming a heating layer on the substrate; forming a buffer layer on the heating layer; forming a photoresist layer on the buffer layer, wherein the photoresist layer comprises a hollow structure array, and the hollow structure array comprises a plurality of hollow structures which pass through from one side of the photoresist layer to the buffer layer; sputtering a metallic glass material on the photoresist layer to deposit the metallic glass material on a side wall of each hollow structure and a part of the buffer layer defined by the side wall; and removing the photoresist layer to form a nanostructure array of the metallic glass material, wherein the nanostructure array comprises a plurality of nanostructures which are spaced apart from one another and form an ordered array, and a plurality of gas chambers are formed by the nanostructure array. 13. The method of claim 12 , further comprising: electrically connecting a power supply unit to the heating layer to provide an adjustable voltage to the heating layer.