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Abstract

In this study, a novel boronÃ?¢Ã?Â?Ã?Â?graphene oxideÃ?¢Ã?Â?Ã?Â?TiO₂(µþÃ?¢Ã?Â?Ã?Â?³Ò°¿Ã?¢Ã?Â?Ã?Â?°Õ¾±°¿₂) was synthesized by solÃ?¢Ã?Â?Ã?Â?gel method. The structure and properties of nano particles were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM) and Fourier transform infrared (FT-IR) spectroscopy. The analysis of the process was performed by varying four significant independent variables, including four numerical factors (concentration of 4-NP, dosage of photo catalyst, initial pH and reaction time). The experiments were conducted based on a central composite design (CCD) and analyzed using response surface methodology (RSM). The photo catalytic activity of samples was monitored by UVÃ?¢Ã?Â?Ã?Â?vis absorption measurements and chemical oxygen demand (COD) test. The results showed that degradation of 4-NP in acidic pH is more favored than in neutral and basic pH. The modified modes reduced recombination of photo generated electron and holes, and extended the absorption of TiO2 into the visible light. The photo catalytic properties of BÃ?¢Ã?Â?Ã?Â?GOÃ?¢Ã?Â?Ã?Â?TiO₂is more effective than those of pure TiO2 and other modified TiO₂. The removal efficiency of 4-NP for BÃ?¢Ã?Â?Ã?Â?GOÃ?¢Ã?Â?Ã?Â?TiO₂, BÃ?¢Ã?Â?Ã?Â?TiO₂and GOÃ?¢Ã?Â?Ã?Â?TiO₂was about 100, 85 and 80%, respectively, and also removal efficiency of COD was about 85, 70 and 65%, respectively, under visible light irradiation and optimum condition (4-NP concentration=25 mg/l, concentration of photo catalyst = 1 g/l, amounts of COD= 300 mg/l and pH of 3 after 180 min).

Biography

Email: aref.shokri3@gmail.com