Green synthesis and characterization of Curcumin functionalized MIL-88 A metal organic framework for reactive blue dye removal optimized by response surface methodology.
Masoumehalsadat Rahmati, Mina Kamani, Ali Rostami, Ali Ashraf Derakhshan, Samin Mozafari, Mohadeseh Sarhadi, Mohana Mousavi
Abstract
Open AccessThe persistent presence of reactive dyes in textile wastewater poses a significant environmental challenge due to their resistance to conventional treatment methods. In this study, a novel Curcumin-functionalized MIL-88 A metal-organic framework (MOF) was synthesized using a green, ethanol-based method for the enhanced removal of reactive blue dye from aqueous solutions. The composite was characterized using FTIR, XRD, FESEM, EDS, BET, and UV-vis spectroscopy. FTIR analysis confirmed successful curcumin functionalization, XRD patterns showed the retention of MIL-88 A crystallinity, and FESEM revealed well-defined spindle-shaped particles with curcumin coating. EDS indicated increased carbon content, while BET analysis demonstrated enhancements in surface area (from 32.35 to 39.70 m²/g) and pore volume (from 0.2816 to 0.3582 cm³/g), improving the material's adsorption performance. Under optimized UV-assisted conditions (pH 4, 0.080 g adsorbent, 50.953 min), the Curcumin/MIL-88 A composite achieved a removal efficiency of 99.98% in the first cycle and a maximum adsorption capacity of 80.89 mg/g based on Langmuir isotherm fitting. Kinetic studies showed that the pseudo-second-order model best described the adsorption behavior, suggesting chemisorption as the dominant mechanism. Isotherm modeling indicated that the Freundlich model provided the best fit, implying multilayer adsorption on a heterogeneous surface. These results confirm a synergistic removal mechanism involving both adsorption and photodegradation. The Curcumin/MIL-88 A composite thus represents a promising, reusable candidate for sustainable wastewater treatment.