Abstract
In this study photocatalyst, TiO2@HNTs were prepared by synthesizing TiO2 nanoparticles in situ on the functionalized halloysite nanotubes (HNTs) surface. Photocatalytic PVC membrane TiO2@HNTs M2 (2 wt.%) and TiO2@HNTs M3 (3 wt.%) were also prepared. Photocatalyst TiO2@HNTs and photocatalytic PVC membranes were used to study the photocatalytic activity against the methylene blue (MB) and rhodamine B (RB) dyes in UV batch reactor. The structure and morphology of photocatalyst and photocatalytic PVC membrane were characterized by fourier transform infrared spectroscopy (FT-IR), X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive X-ray (EDX), transmission electron microscopy (TEM), UV-Vis spectrophotometer and photoluminescence (PL). The PL study showed that the oxygen vacancies and surface hydroxyl groups present on the surface of TiO2@HNTs act as excellent traps for charge carrier, reducing the electron-hole recombination rate.TiO2@HNTs 2 (2 wt.%) and TiO2@HNTs 3 (3 wt.%) degraded MB dye up to 83.21%, 87.47% and RB dye up to 96.84% and 96.87%, respectively. TiO2@HNT photocatalyst proved to be stable during the three consecutive cycle of photocatalytic degradation of the RB dye. TiO2@HNTs M2 and TiO2@HNTs M3 degraded MB dye up to 27.19%, 42.37% and RB dye up to 30.78%, 32.76%, respectively. Photocatalytic degradation of both the dyes followed the first-order kinetic model. Degradation product analysis was done using the liquid chromatography–mass spectrometry (LC-MS) and the results showed that the dye degradation was initiated by demethylation of the molecule. MB and RB dye degradation reaction were tested by TBA and IPA as OH* and H+ scavengers respectively. Mechanism of photocatalytic activity of TiO2@HNTs and photocatalytic PVC membrane were also explained.
Highlights
In recent years, halloysite nanotubes (HNTs) and its composite materials have attracted enormous attention due to their wide range of potential applications in fields of catalysis[1], adsorption[2], composites[3] and drug delivery processes[4] etc
Adding Tert-butyl alcohol (TBA) (0.02 mmol) in the reaction, photocatalytic degradation decreased from 87.47% to 44% in case of methylene blue (MB) dye while in case of rhodamine B (RB) dye degradation percentage decreases from 96.87% to 72%
Utilization of naturally present HNTs as photocatalyst support is advantageous for the synthesis of TiO2@HNTs photocatalyst nanoparticles due to its size and shape dependent photocatalytic properties
Summary
Adding TBA (0.02 mmol) in the reaction, photocatalytic degradation decreased from 87.47% to 44% in case of MB dye while in case of RB dye degradation percentage decreases from 96.87% to 72% This proved that OH* free radicals were generated during photodegradation of dye. H2O2 and hydroxylated degradation products were formed during the reaction and the efficiency of degradation increases significantly when H2O2 is formed in the presence of UV radiation This was because of free hydroxyl radicals (which act as powerful oxidizing agent) generated by the dissociation of H2O2 in the presence of UV irradiations.
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