A multilayered capacitor includes a capacitor body including a dielectric layer and an internal electrode, and an external electrode outside the capacitor body, wherein the dielectric layer includes a plurality of dielectric crystal grains, the dielectric crystal grains include Ba.sub.x(Ti.sub.1-yZr.sub.y)O.sub.3 as a main component and satisfy 0<y?0.0018 at a center of the dielectric crystal grains, D50 of the dielectric crystal grains is about 130 nm to about 170 nm, and a coefficient of variation (standard deviation of size/D50) of the dielectric crystal grain size is 35% to 45%.

A multilayered capacitor includes a capacitor body including a dielectric layer and an internal electrode, and an external electrode outside the capacitor body, wherein the dielectric layer includes a plurality of dielectric crystal grains, the dielectric crystal grains include barium titanate as a main component, a mole ratio of barium to titanium (Ba/Ti mole ratio) at a center of the dielectric crystal grains is about 0.9797 to about 0.9943, and a coefficient of variation (standard deviation of size/D50) of the dielectric crystal grain size is about 30% and about 43%.

Provided is an anode material for a secondary battery, and more particularly, to an anode material for a secondary battery using a silicon oxide (SiOx), and a method of preparing the same. There is provided an anode material for a secondary battery, formed by preparing an SiOx and a carbon material, mixing the SiOx and the carbon material, forming a SiOx-carbon (SiOx-C) composite, and performing a heat treatment.