en تخصصي Special مقاله اصیل Original Article <div style="text-align: justify;"><span class="fontstyle0">Background: </span><span class="fontstyle2">Today, advances in different areas of science and technology along with their application in industries have led to an increase in dangerous pollutants which can resist biodegradation. Volatile organic compounds (VOCs) are regarded as important factors of air pollution in closed environments. Xylene is one of these compounds which is produced in mass quantities and widely used in industries, therefore, the removal of this compound is necessary. One of the available technologies for removing this compound is photocatalytic degradation. The present study aimed to determine the efficiency of photocatalytic removal of xylene as a pollutant in air using TiO</span><span class="fontstyle2" style="font-size:5pt;">2</span><span class="fontstyle2">-ZnO nanoparticles and TiO</span><span class="fontstyle2" style="font-size:5pt;">2</span><span class="fontstyle2">-ZnO composite coated on activated carbon under ultraviolet radiation.</span><br> <span class="fontstyle0">Methods: </span><span class="fontstyle2">In this experimental study, after coating of the nanoparticles on activated carbon, the produced catalysts with a specific surface area were characterized using Brunauer-Emmett-Teller (BET) surface area and porosity analysis, scanning electron microscope (SEM), and the type and percentage of the main elements present in the bed were determined using energy dispersive x-ray spectroscopy (EDS). The tests were carried out at laboratory scale and ambient temperature. In order to produce polluted air containing 100 ppm xylene vapor at a specific flow rate and concentration, a dynamic concentrator system was used. The removal of xylene was investigated under continuous flow mode.</span><br> <span class="fontstyle0">Results: </span><span class="fontstyle2">The results of the specific surface area using BET analysis and SEM images showed that nanoparticles were well coated on activated carbon. According to the results of the photocatalytic removal, the efficiencies of photocatalytic removal of xylene by AC/ZnO 5%, AC/TiO</span><span class="fontstyle2" style="font-size:5pt;">2 </span><span class="fontstyle2">15%, and AC/3TiO</span><span class="fontstyle2" style="font-size:5pt;">2</span><span class="fontstyle2">/1ZnO were 80.1, 89, and 95.1%, respectively.</span><br> <span class="fontstyle0">Conclusion: </span><span class="fontstyle2">According to the results, the use of ZnO-TiO</span><span class="fontstyle2" style="font-size:5pt;">2 </span><span class="fontstyle2">nanocomposite on activated carbon can be an appropriate method for the photocatalytic removal of xylene from polluted air.</span></div> Xylene, Nanocomposites, Titanium dioxide, Zinc oxide, Air pollution 41 47 http://ehemj.com/browse.php?a_code=A-10-1-160&slc_lang=en&sid=1 Hossein Ali Rangkooy rangkooy@gmail.com 10031947532846006163 10031947532846006163 No Environmental Technologies Research Center, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran Fereshteh Jahani jahani.f71@gmail.com 10031947532846006164 10031947532846006164 No Department of Occupational Health Engineering, School of Health, Jundishapur University of Medical Sciences, Ahvaz, Iran Atefeh Siahi Ahangar siahi2068@gmail.com 10031947532846006165 10031947532846006165 Yes Corresponding author:Department of Occupational Health Engineering, School of Health, Jundishapur University of Medical Sciences, Ahvaz, Iran