Adsorptive and photocatalytic activity of Fe3O4-functionalized multilayer graphene oxide in the treatment of industrial textile wastewater

Multilayer graphene oxide (mGO) was synthesized and functionalized via co-precipitation method to produce magnetic Fe3O4-functionalized multilayer graphene oxide nanocomposite (MmGO). Photocatalytic properties of MmGO were investigated in the photodegradation of raw textile wastewater samples. Fourier-transformed infrared spectroscopy revealed Fe-O vibrations, characterized by the band shift from 636.27 to 587.25 cm(-1)on MmGO. X-ray diffraction confirmed the successful oxidation of graphite by the (002) peak at 10 degrees and indicated the presence of Fe(3)O(4)on MmGO surface by the peaks at 2 theta 35.8 degrees (311), 42.71 degrees (400), 54.09 degrees (511), and 62.8 degrees (440). There was no detection of coercivity field and remnant magnetization, evidencing a material with superparamagnetic properties. Then, the textile effluent was treated by heterogeneous photo-Fenton (HPF) reaction. A 2(2)factorial design was conducted to evaluate the effects of MmGO dosage and H(2)O(2)concentration on HPF, with color and turbidity removal as response variables. The kinetic behavior of the adsorption and HPF processes was investigated separately, in which, the equilibrium was reached within 60 and 120 min, for adsorption and HPF, respectively. Pseudo-second-order model exhibited the best fit, with COD uptake capacity at equilibrium of 4094.94 mg g(-1), for chemical oxygen demand. The modeling of kinetics data showed that the Chan and Chu model was the most representative for HPF, with initial removal rate of 95.52 min(-1). The removal of organic matter was 76.36% greater than that reached by conventional treatment at textile mills. The presence of Fe(3)O(4)nanoparticles attached to MmGO surface was responsible for the increase of electron mobility and the enhancement of its photocatalytic properties. Finally, MmGO presented low phytotoxic toCucumis sativusL. with a RGI of 0.53. These results bring satisfactory perspectives regarding further employment, on large scale, of MmGO as nanocatalyst of textile pollutants.

Automated summary

The study demonstrates that Fe3O4-functionalized multilayer graphene oxide nanocomposite (MmGO) can effectively treat raw textile wastewater through heterogeneous photo-Fenton (HPF) reaction, showing superior photocatalytic properties and adsorption capacity. Additionally, MmGO does not have significant negative impacts on plant growth and physiological state.