Photocatalytic degradation of Rhodamine B dye using low‐cost pyrofabricated titanium dioxide quantum dots‐kaolinite nanocomposite
Mahmoud E. Awad, Amr M. Farrag, A.A. El-Bindary, Mohamed A. El‐Bindary, Hala A. Kiwaan
Abstract
In this study, we report a simple technique for the pyrofabrication of a novel photocatalyst of titanium dioxide quantum dots‐kaolinite nanocomposite (TiO 2 ‐QDs‐Kao) used for rhodamine B (RhB) dye degradation. The photocatalyst was characterized by using different analytical techniques, including XRD, XRF, XPS, FTIR, DTA/TGA, SEM–EDX, TEM, BET, BJH, ZP and UV–Vis DRS. The photocatalytic degradation of RhB was performed in aqueous solutions using the sustainable sunlight energy under atmospheric conditions and fixed neutral medium (pH = 7). The produced photocatalyst exhibited optical band gap energy of 2.85 eV, an improved large specific surface area of 107.724 m 2 /g with pore radius of 1.45 nm and total pore volume of 0.123 cm 3 /g. The study indicated a maximum 91% degradation efficiency of RhB after 120 min using the optimum dose 1,400 mg/l of the TiO 2 ‐QDs‐Kao photocatalyst. The degradation of RhB dye fitted the Langmuir first‐order kinetics with rate constant 0.0151 min −1 . The radical trapping experiments based on scavengers confirmed that the mechanism of photocatalytic degradation activity was potentially based on electron (e − ) and hole (h + ) conduction band. The potential energy of the valence and conduction bands E VB and E CB were calculated 2.73 and −0.12 eV, respectively. A triple reusability study confirmed a high stability of TiO 2 ‐QDs‐Kao photocatalyst with detected degradation efficiencies of 91.0, 89.9, 88.8 and 87.5%, respectively.