Metal nanoparticles, and preparation method therefor

The invention claimed is: 1. Metal nanoparticles having a bimodal size distribution including a first peak and a second peak wherein the first peak has a smaller median size than the second peak, and satisfying the following Equation 1, wherein particles belonging to the second peak have a faceted polygonal shape having a surface consisting of a {111} plane family only or a {111} plane family and a {110} plane family wherein a tangent slope of the surface discontinuously changes and having a pure metal surface by preventing formation of an oxide film, and a metal core having a FCC crystal structure is capped by a capping layer containing an organic acid: 0.4≤ A 1 /A t ≤0.8  [Equation 1] wherein A 1 is an area of the first peak; and A t is the sum of areas of the first peak and the second peak. 2. The metal nanoparticles of claim 1 , wherein they further satisfy the following Equations 2 and 3: 30 nm≤ D 1 ≤100 nm  [Equation 2] wherein D 1 is a median size of the first peak; 3≤ D 2 /D 1 ≤5  [Equation 3] wherein D 1 is as defined in Equation 2; and D 2 is a median size of the second peak. 3. The metal nanoparticles of claim 1 , wherein particles belonging to the first peak has an oxidation degree of 0.2 of less, the oxidation degree being a ratio obtained by dividing a Cu 2p peak area of copper oxides by a Cu 2p peak area of copper, in an X-ray photoelectron spectroscopy spectrum. 4. The metal nanoparticles of claim 1 , wherein the organic acid is one or two or more selected from the group consisting of oleic acid, lysine oleic acid, stearic acid, hydroxystearic acid, linoleic acid, aminodecanoic acid, hydroxydecanoic acid, lauric acid, decenoic acid, undecenoic acid, palitoleic acid, hexyldecanoic acid, hydroxypalmitic acid, hydroxymyristic acid, hydroxydecanoic acid, palmitoleic acid and myristoleic acid. 5. The metal nanoparticles of claim 1 , wherein the capping layer has a thickness of 1 to 2 nm. 6. The metal nanoparticles of claim 1 , wherein the metal nanoparticles are one or more selected from the group consisting of copper, nickel, aluminum and an alloy thereof. 7. The metal nanoparticles of claim 1 , wherein the metal nanoparticles are for light sintering or laser sintering. 8. A continuous preparation method for making the metal nanoparticles of claim 1 , comprising: continuously injecting a first solution containing an organic acid, an organic amine and a metal precursor and a second solution containing a reducing agent to a reaction space between a hollow cylindrical jacket and a rotating cylinder forming a concentric structure with the jacket and being disposed apart from the jacket. 9. The method of claim 8 , wherein the first and second solutions are continuously injected to the reaction space, through an inlet formed in one end or one end side of the jacket, and a reaction product including metal nanoparticles capped by a capping layer containing an organic acid is continuously discharged, through an outlet formed in the other end or the other end side of the jacket. 10. The method of claim 8 , wherein the jacket and the cylinder satisfy the following Equation 4: 0.1≤ D/r i ≤0.4  [Equation 4] wherein D is a spaced distance between the jacket and the cylinder; and n is a radius of the cylinder. 11. The method of claim 8 , wherein a rotational speed of the cylinder is 400 to 1000 rpm. 12. The method of claim 8 , wherein the temperature of the reaction space is 100 to 350° C.