Synthesis of nanocomposites of iron oxide/gold (FeO/Au) loaded on activated carbon and their application in water treatment by using sonochemistry: Optimization study.

This paper focuses on the finding best operational conditions using response surface methodology (RSM) for Rhodamine123 (R123) and Disulfine blue (DSB) dyes removal by ultrasound assisted adsorption onto Au-FeO nanoparticles loaded on activated carbon (Au-FeO NPs-AC). The influences of variables such as initial R123 (X) and DSB concentration (X), pH (X), adsorbent mass (X) and sonication time (X) on their removal were investigated by small central composite design (CCD) under response surface methodology. The significant variables and the possible interactions among variables were investigated and estimated accordingly. The best conditions were set as: 4min, 4.0, 0.025g, 13.5 and 26.5mgL for sonication time, pH, adsorbent weight, initial R123 and DSB concentration, respectively. At above conditions, the adsorption equilibrium and kinetic follow the Langmuir isotherm and pseudo-second-order kinetic model, respectively. The maximum monolayer capacity (Q) of 71.46 and 76.38mgg for R123 and DSB show sufficiency of model for well presentation of experimental data.