This study aims to explore the potential of layered double hydroxides (LDHs) materials for the treatment of contaminated waters by organic pollutants, using a combined dual process, namely adsorption-photocatalysis. A series of LDHs of ZnCr-X where (X= Cl, SO 4 and CO 3) were synthesized and characterized by several techniques such as DRX, FTIR, BET, TEM, and UV-Visible spectrophotometry. The pollutant acid orange 7 (AO7) is efficiently adsorbed on the surface of the three LDHs. The adsorption depends on the nature of the intercalated anion. The adsorption percentage of AO7 achieved for the intercalated anions SO 4 2-, CO 3 2-and Cl−, was 25, 32 and 49.5% respectively. We find that ZnCr–SO 4 LHD is the most effective photocatalyst for AO7 dye decomposition in the UV and visible range and its photocatalytic activity is preserved during three cycles of photocatalytic tests. Such remarkable properties allow considering ZnCrSO 4-LDH as a promising photocatalyst with high activity, long-term durability and excellent applicability.