Lithium composite phosphate-based compound and preparation method therefor

1 - 13 . (canceled) 14 . A preparation method for a lithium composite phosphate-based compound, the preparation method comprising: a) injecting and stirring at least a chelating agent, a precursor of phosphate, a precursor of a first metal including lithium, and a water-insoluble precursor of a second metal in a polar solvent to prepare a precursor dispersion solution; and b) heat-treating precursor powder obtained by concentrating and drying the precursor dispersion solution. 15 . The preparation method of claim 14 , wherein the second metal is one or two or more metals selected among transition metals, and in the water-insoluble precursor of the second metal, the second metal has a valence of 2. 16 . The preparation method of claim 15 , wherein the precursor powder contains a complex of the second metal having a valence of 3. 17 . The preparation method of claim 14 , wherein the precursor of the first metal is a water-soluble precursor or a water-insoluble precursor. 18 . The preparation method of claim 14 , wherein the second metal includes iron. 19 . The preparation method of claim 14 , wherein a water-soluble precursor of a third metal, one or more metals selected among Mg, Ni, Co, Mn, Ti, Cr, Cu, V, Ce, Sn, Ba, Ca, Sr, Zn, Al, and Ag is further injected into the polar solvent. 20 . The preparation method of claim 15 , wherein the lithium composite phosphate-based compound satisfies a composition represented by the following Chemical Formula 1. Li 1+a Fe 1−x M x P 1+b O 4   (Chemical Formula 1) (In Chemical Formula 1, M is one or more selected from the group consisting of Mg, Ni, Co, Mn, Ti, Cr, Cu, V, Ce, Sn, Ba, Ca, Sr, Zn, Al, and Ag, and x, a, and b are real numbers satisfying 0.00≤x≤1, 0.00≤a≤0.1, and 0.00≤b≤0.10, respectively.) 21 . The preparation method of claim 14 , wherein the concentration and drying are performed by vacuum concentration. 22 . The preparation method of claim 21 , wherein the vacuum concentration is performed at a temperature of 30 to 60° C. and a pressure of 20 to 100 mbar. 23 . The preparation method of claim 14 , wherein the heat-treatment is performed under a reduction atmosphere or an inert atmosphere. 24 . The preparation method of claim 23 , wherein the heat-treatment is performed at 400 to 800° C.