Composite particles having nanogap, and preparation method therefor

The invention claimed is: 1. A composite particle comprising: a base particle; a metal layer enclosing the base particle and having a surface on which a plurality of gaps are formed, wherein the surface of the metal layer has a plurality of convex portions, wherein the gaps are located between the convex portions of the metal layer, and wherein the gaps have sidewall surfaces and a bottom surface; and a marker provided on the metal layer and provided within the plurality of gaps of the metal layer, wherein the marker is provided on the bottom surface of the gaps; wherein the metal layer and the marker are formed from a Ag thiolate polymer provided on a surface of the base particle. 2. The composite particle of claim 1 , wherein the metal layer is positioned between the surface of the base particle and the bottom surface of the gaps. 3. The composite particle of claim 1 , wherein the marker comprises a Raman marker. 4. The composite particle of claim 1 , wherein the base particle comprises a silica particle. 5. The composite particle of claim 1 , wherein the plurality of gaps are narrower at a point that is closer to the surface of the base particle as compared to at a point that is further from the surface of the base particle. 6. A method for preparing the composite particle of claim 1 , the method comprising: preparing a precursor solution containing Ag, and the base particle; mixing the precursor solution and the base particle to prepare a mixed solution; adding a reducing agent into the mixed solution; and adding a source of the marker into the mixed solution, to which the reducing agent is added, and stirring a resultant solution to prepare the composite particle. 7. The method of claim 6 , wherein preparing the mixed solution comprises mixing the precursor solution and the base particle with a dispersion stabilizer. 8. The method of claim 7 , wherein a size and number of the plurality of convex portions are controlled depending on a content of the dispersion stabilizer. 9. The method of claim 8 , wherein, when the content of the dispersion stabilizer is increased, the size of the plurality of convex portions is decreased and the number of the plurality of convex portions is increased, so as to increase a number of the plurality of gaps provided between the plurality of convex portions. 10. The method of claim 7 , wherein a number of the plurality of gaps is controlled depending on a content of the dispersion stabilizer. 11. The method of claim 7 , wherein the dispersion stabilizer comprises PVP. 12. The method of claim 6 , wherein the base particle comprises a functional group which is provided on the surface of the base particle and reacts with the Ag.