The objectives of this study were to recover silica and iron oxides and CO2 sequestration using serpentine via various acid dissolution and pH swing processes. Serpentine collected from Guhang-myeon in S. Korea were mainly composed of antigorite and magnetite consisting of SiO2 (45.3 wt.%), MgO (41.3 wt.%), Fe2O3 (12.2 wt.%). Serpentine pulverized ( 75 µm) and then dissolved in 3 different acids, HCl, H2SO4 , HNO3 . Residues treated with acidic solution were recovered from the solution (step 1). And then the residual solution containing dissolved ser-pentine was titrated using NH 4 OH. And pH of the solution increased up to pH=8.6 to obtain reddish precipitates (step 2). After recovery of the precipitates, the residual solution reacted with O2 and then pH increased up to pH=9.5 to precipitate white materials (step 3). The mineralogical characteristics of the original sample and har-vested precipitates were examined by XRD, and TEM-EDS analyses. ICP-AES analysis was also used to investi-gate solution chemistry. The dissolved ions were Mg, Si, and Fe. The antigorite became noncrystralline silica after acid treatment (step 1). The precipitate at pH=8.6 was mainly amorphous iron oxide, of which size ranged from 2 to 10 nm and mainly consisting of Fe, O, and Si (step 2). At pH=9.5, nesquehonite [Mg(HCO3 )(OH)·2(H2O)] and lasfordite [MgCO3 ·H2O] were formed after reaction with CO2 (step 3). The size of carbonated minerals was ranged from 1 to 6 µm. These results indicated that the acid treatment of serpentine and pH swing processes for the ser-pentine can be used for synthesis of other materials such as silica, iron oxides and magnesium carbonate. Also, This process may be useful for the precursor synthesis and CO2 sequestration via mineral carbonation.