Additive for Cathode, Method for Preparing the Same, Cathode Including the Same, and Lithium Secondary Battery Including the Same

1 . A cathode additive for a lithium secondary battery, comprising: a compound represented by the following Chemical Formula 1: y(Li 2 Ni 1-x M x O 2 )-z(Li 6 Co 1-x M x O 4 )   [Chemical Formula 1] in Chemical Formula 1, M is one or more elements selected from the group consisting of P, B, F, W, Ti and Zr, 0≤x<1.0, y and z are molar ratios of Li 2 Ni 1-x M x O 2 and Li 6 Co 1-x M x O 4 contained in the compound of Chemical Formula 1, and y:z is 2:1 to 30:1. 2 . The cathode additive for a lithium secondary battery of claim 1 , wherein the compound comprises primary particles of Li 2 Ni 1-x M x O 2 and primary particles of Li 6 Co 1-x M x O 4 physically mixed and connected to form a single particulate or a complex. 3 . The cathode additive for a lithium secondary battery of claim 2 , wherein the compound of Chemical Formula 1 in the form of a single particulate or a complex has an additional peak at 2θ of 23.5°±0.2° or 36.3°±0.2° in XRD (X-ray diffraction) analysis by Cu Kα X-ray (X-rα), and an intensity of the additional peak is 10% or less based on an intensity of the peak at 2θ of 25. 67°±0.2°. 4 . The cathode additive for a lithium secondary battery of claim 1 , wherein the compound of Chemical Formula 1 further comprises residual Li 2 O in an amount of about 1.5 wt % or less. 5 . A method for preparing the cathode additive of a lithium secondary battery of claim 1 , comprising: a first calcination step of calcining a mixture comprising a nickel precursor, an M-containing precursor, and a lithium precursor comprising Li 2 O to form a complex comprising Li 2 Ni 1-x M x O 2 and Li 2 O; and a second calcination step of further reacting the lithium precursor contained in the complex with a cobalt (Co) precursor to form a compound of Chemical Formula 1. 6 . The method for preparing the cathode additive of claim 5 , wherein the first calcination step is carried out under an inert atmosphere at a temperature of 500° C. to 800° C., and the second calcination step is carried out under an inert atmosphere at a temperature of 400° C. to 800° C. 7 . The method for preparing the cathode additive of claim 5 , wherein the nickel precursor comprises nickel oxide or nickel hydroxide, and the M-containing precursor, which includes the element M, comprises one or more selected from the group consisting of its oxide, hydroxide, oxyhydroxide, sulfate, nitrate, acetate, carbonate, oxalate, citrate, halide, phosphate and hydrate thereof. 8 . A cathode mix comprising the cathode additive of claim 1 ; and a cathode active material. 9 . The cathode mix of claim 8 , wherein a weight ratio of the cathode additive: the cathode active material is 1:99 to 35:65. 10 . The cathode mix of claim 8 , wherein the cathode active material comprises one or more composite oxides of a metal selected from the group consisting of cobalt, manganese, nickel, and a combination thereof; and lithium. 11 . A lithium secondary battery comprising: a cathode comprising the cathode mix of claim 8 ; an electrolyte; and an anode. 12 . The cathode additive for a lithium secondary battery of claim 1 , wherein the (Li 2 Ni 1-x M x O 2 ) is Li 2 NiO 2 and the (Li 6 Co 1-x M x O 4 ) is Li 6 CoO 4 . 13 . The cathode additive for a lithium secondary battery of claim 1 , wherein y:z is 2.5:1 to 20:1. 14 . The cathode additive for a lithium secondary battery of claim 1 , wherein y:z is 3:1 to 10:1.