Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide
Current advanced oxidation processes (AOPs) are chemically and energetically intensive processes, which are undesirable for cost-effective and large-scale system water treatment and wastewater recycling. This study explored the Strontium Ferrite (SFO) metal oxide on the degradation of highly concent...
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sg-ntu-dr.10356-818162020-03-07T11:35:20Z Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide Leiw, Ming Yian Guai, Guan Hong Wang, Xiaoping Tse, Man Siu Ng, Chee Mang Tan, Ooi Kiang School of Chemical and Biomedical Engineering School of Civil and Environmental Engineering School of Electrical and Electronic Engineering SrFeO3−δ Dark degradation Current advanced oxidation processes (AOPs) are chemically and energetically intensive processes, which are undesirable for cost-effective and large-scale system water treatment and wastewater recycling. This study explored the Strontium Ferrite (SFO) metal oxide on the degradation of highly concentrated organic pollutants under dark ambient condition without any external stimulants. The SFO particles with single perovskite structure were successfully synthesized with a combined high temperature and high-energy ball milling process. An endocrine disruptor, Bisphenol A (BPA) and an azo dye, Acid Orange 8 (AO8) were used as probe organic pollutants. BPA was completely degraded with 83% of mineralization in 24 h while rapid decoloration of AO8 was achieved in 60 min and complete breakdown into primary intermediates and aliphatic acids occurred in 24 h under the treatment of dispersed SFO metal oxide in water. Such efficient degradation could be attributed to the enhanced adsorption of these anionic pollutants on positively charged ball-milled SFO metal oxide surface, resulted in higher degradation activity. Preliminary degradation mechanisms of BPA and AO8 under the action of SFO metal oxide were proposed. These results showed that the SFO metal oxide could be an efficient alternative material as novel advanced oxidation technology for low cost water treatment. ASTAR (Agency for Sci., Tech. and Research, S’pore) EDB (Economic Devt. Board, S’pore) 2016-07-18T06:57:27Z 2019-12-06T14:40:56Z 2016-07-18T06:57:27Z 2019-12-06T14:40:56Z 2013 Journal Article Leiw, M. Y., Guai, G. H., Wang, X., Tse, M. S., Ng, C. M., & Tan, O. K. (2013). Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide. Journal of Hazardous Materials, 260, 1-8. 0304-3894 https://hdl.handle.net/10356/81816 http://hdl.handle.net/10220/40957 10.1016/j.jhazmat.2013.04.031 en Journal of Hazardous Materials © 2013 Elsevier. |
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SrFeO3−δ Dark degradation Leiw, Ming Yian Guai, Guan Hong Wang, Xiaoping Tse, Man Siu Ng, Chee Mang Tan, Ooi Kiang Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide |
| description |
Current advanced oxidation processes (AOPs) are chemically and energetically intensive processes, which are undesirable for cost-effective and large-scale system water treatment and wastewater recycling. This study explored the Strontium Ferrite (SFO) metal oxide on the degradation of highly concentrated organic pollutants under dark ambient condition without any external stimulants. The SFO particles with single perovskite structure were successfully synthesized with a combined high temperature and high-energy ball milling process. An endocrine disruptor, Bisphenol A (BPA) and an azo dye, Acid Orange 8 (AO8) were used as probe organic pollutants. BPA was completely degraded with 83% of mineralization in 24 h while rapid decoloration of AO8 was achieved in 60 min and complete breakdown into primary intermediates and aliphatic acids occurred in 24 h under the treatment of dispersed SFO metal oxide in water. Such efficient degradation could be attributed to the enhanced adsorption of these anionic pollutants on positively charged ball-milled SFO metal oxide surface, resulted in higher degradation activity. Preliminary degradation mechanisms of BPA and AO8 under the action of SFO metal oxide were proposed. These results showed that the SFO metal oxide could be an efficient alternative material as novel advanced oxidation technology for low cost water treatment. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Leiw, Ming Yian Guai, Guan Hong Wang, Xiaoping Tse, Man Siu Ng, Chee Mang Tan, Ooi Kiang |
| format |
Article |
| author |
Leiw, Ming Yian Guai, Guan Hong Wang, Xiaoping Tse, Man Siu Ng, Chee Mang Tan, Ooi Kiang |
| author_sort |
Leiw, Ming Yian |
| title |
Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide |
| title_short |
Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide |
| title_full |
Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide |
| title_fullStr |
Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide |
| title_full_unstemmed |
Dark ambient degradation of Bisphenol A and Acid Orange 8 as organic pollutants by perovskite SrFeO3−δ metal oxide |
| title_sort |
dark ambient degradation of bisphenol a and acid orange 8 as organic pollutants by perovskite srfeo3−δ metal oxide |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/81816 http://hdl.handle.net/10220/40957 |
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1681046073182781440 |