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J Air Waste Manag Assoc


Title:"Iron-functionalized titanium dioxide on flexible glass fibers for photocatalysis of benzene, toluene, ethylbenzene, and o-xylene (BTEX) under visible- or ultraviolet-light irradiation"
Author(s):Yang SB; Chun HH; Tayade RJ; Jo WK;
Address:"a Department of Chemistry, College of Natural Science , University of Ulsan , Ulsan , Republic of Korea"
Journal Title:J Air Waste Manag Assoc
Year:2015
Volume:65
Issue:3
Page Number:365 - 373
DOI: 10.1080/10962247.2014.995838
ISSN/ISBN:1096-2247 (Print) 1096-2247 (Linking)
Abstract:"Iron-functionalized titanium dioxide (TiO2) composites with various Fe-to-Ti ratios were prepared on flexible glass fibers (GF-Fe-TiO2) via a sol-gel method, followed by a dip-coating process. The photocatalytic ability of these composites in degrading selected volatile organic compounds (VOCs; benzene, toluene, ethylbenzene, and o-xylene [BTEX]) at indoor concentration levels was examined. The GF-Fe-TiO2 composites were characterized using scanning electron microscopy, energy-dispersive X-ray elemental analysis, ultraviolet (UV)-visible spectroscopy, and X-ray diffraction. The GF-Fe-TiO2 composites showed superior photocatalytic performance to that of a reference glass fiber-supported TiO2 photocatalyst for the treatment of BTEX under visible light. However, this trend was reversed under UV irradiation. Specifically, the average BTEX photocatalytic efficiencies of the 0.01-GF-Fe-TiO2 composite in a 3-hr visible-light photocatalytic process were 4%, 33%, 51%, and 74%, respectively. Conversely, the average BTEX photocatalytic efficiencies obtained for GF-TiO2 were close to 0%, 5%, 16%, and 29%, respectively. These findings demonstrated that the GF-Fe-TiO2 composites could be applied to photocatalytically purify BTEX, especially under visible-light exposure. Moreover, the GF-Fe-TiO2 composites prepared with different Fe-to-Ti ratios displayed different BTEX photocatalytic decomposition efficiencies under visible or UV light, allowing for optimization of the Fe-to-Ti ratio (which was found to be 0.01). IMPLICATIONS: The application of nanomaterials for air purification necessitates a supporting material to stabilize them while in contact with the treated air in the photocatalytic chamber. Glass fibers have an obvious advantage over other supporting materials mainly because of its flexibility, which makes it much easier to handle. However, the applications of glass fiber-supported, visible light-activated photocatalysts to the treatment of air pollutants are rarely reported in literature. Accordingly, this study aimed to investigate the applicability of glass fiber-supported Fe-TiO2 for the purification of VOCs under visible- as well as UV-light exposure"
Keywords:Air Pollutants/chemistry Benzene/*chemistry Benzene Derivatives/*chemistry Catalysis Glass Iron/chemistry Light *Photolysis Titanium/chemistry Toluene/*chemistry Xylenes/*chemistry;
Notes:"MedlineYang, Sung-Bong Chun, Ho-Hwan Tayade, Rajesh J Jo, Wan-Kuen eng Research Support, Non-U.S. Gov't 2015/05/08 J Air Waste Manag Assoc. 2015 Mar; 65(3):365-73. doi: 10.1080/10962247.2014.995838"

 
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