Method and device for transferring nanoparticle monolayer by using capillary tube

The invention claimed is: 1. A method for transferring a nanoparticle monolayer, comprising: separating and transferring a nanoparticle monolayer to a substrate by using a capillary tube. 2. The method for transferring a nanoparticle monolayer according to claim 1 , which comprises: a step of forming the nanoparticle monolayer at a liquid-gas interface; a step of separating the nanoparticle monolayer into the capillary tube by contacting the capillary tube with the liquid-gas interface; and a step of transferring the nanoparticle monolayer in the capillary tube to a substrate. 3. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the nanoparticle monolayer is formed at the liquid-liquid interface through self-assembly of nanoparticles, and then the nanoparticle monolayer is formed at the liquid-gas interface by evaporating the upper liquid. 4. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the nanoparticle monolayer is contained in the capillary tube by contacting the capillary tube with the interface, and then the nanoparticle monolayer in the capillary tube is transferred to the substrate by inverting the capillary tube and contacting the capillary tube with the substrate. 5. The method for transferring a nanoparticle monolayer according to claim 4 , wherein van der Waals force or electrostatic attraction is exerted between the nanoparticle monolayer and the substrate. 6. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the nanoparticle monolayer is formed at a water-air interface. 7. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the transferred nanoparticle monolayer has an area of 4 mm 2 or less. 8. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the transferred nanoparticles have a diameter of 5-200 nm. 9. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the transferred nanoparticle is one or more nanoparticle selected from a metal, an inorganic material or a polymer. 10. The method for transferring a nanoparticle monolayer according to claim 9 , wherein the metal is one or more selected from a group consisting of Au, Ag, Pd, Pt, Al, Cu, Co, Cr, Mn, Ni and Fe, wherein the inorganic material is one or more selected from a group consisting of silica, a quantum dot, a lanthanide and iron oxide and the polymer is one or more of polystyrene or polyethylene glycol. 11. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the transferred nanoparticle has one or more shape selected from a group consisting of a sphere, a rod, an ellipsoid, a dendrimer, a tetrahedron, a hexahedron, an octahedron, a 2-dimensional quadrangle and a 2-dimensional triangle. 12. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the substrate is a hydrophilic or hydrophobic substrate. 13. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the substrate is a curved substrate. 14. The method for transferring a nanoparticle monolayer according to claim 2 , wherein the substrate is a microfluidic channel. 15. The method for transferring a nanoparticle monolayer according to claim 2 , wherein multiple nanoparticle monolayers are transferred at the same time to a same substrate by using multiple capillary tubes. 16. The method for transferring a nanoparticle monolayer according to claim 1 , comprising: a step of separating and transferring the nanoparticle monolayer to a substrate on which a material to be detected is located by using the capillary tube; and a step of detecting the material to be detected on the substrate from a Raman signal of the transferred nanoparticle monolayer. 17. The method for transferring a nanoparticle monolayer according to claim 16 , wherein the substrate is clothing surface, food surface, banknote surface, cell surface or porous filter surface. 18. The method for transferring a nanoparticle monolayer according to claim 17 , wherein the method is for detecting a drug or an explosive on clothing surface or banknote surface or a harmful material on food surface. 19. The method for transferring a nanoparticle monolayer according to claim 1 , comprising: separating the nanoparticle monolayer by using h capillary tube and transferring the nanoparticle monolayer in the capillary tube to at least one part of an authentic banknote for prevention of counterfeiting. 20. The method for transferring a nanoparticle monolayer according to claim 1 , wherein the nanoparticle monolayer is separated and transferred to a microfluidic channel by using the capillary tube.