Sonophotocatalytic mineralization of Norflurazon in aqueous environment
Norflurazon (4-chloro-5-(methylamino)-2-[3- trifluoromethyl)phenyl]pyridazin-3(2H)-one; C12H9ClF3N3O) is an excellent weed controlling agent being practiced in the agricultural lands. The excessive addition or the undissolved Norflurazon (maximum solubility 28 mg/L at 25 C) enters into the aquatic e...
| Autores principales: | , , , , , , |
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| Formato: | Artículo |
| Lenguaje: | inglés |
| Publicado: |
Pergamon Press
2015
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| Materias: | |
| Acceso en línea: | http://eprints.uanl.mx/11596/1/2016_Chemosphere.pdf |
| _version_ | 1824413371740454912 |
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| author | Sathishkumar, Panneerselvam Mangalaraja, Ramalinga Viswanathan Rozas, Oscar Vergara, Carola Mansilla, Héctor D. Gracia Pinilla, Miguel Ángel Anandan, Sambandam |
| author_facet | Sathishkumar, Panneerselvam Mangalaraja, Ramalinga Viswanathan Rozas, Oscar Vergara, Carola Mansilla, Héctor D. Gracia Pinilla, Miguel Ángel Anandan, Sambandam |
| author_sort | Sathishkumar, Panneerselvam |
| collection | Repositorio Institucional |
| description | Norflurazon (4-chloro-5-(methylamino)-2-[3- trifluoromethyl)phenyl]pyridazin-3(2H)-one; C12H9ClF3N3O) is an excellent weed controlling agent being practiced in the agricultural lands. The excessive addition or the undissolved Norflurazon (maximum solubility 28 mg/L at 25 C) enters into the aquatic environment and causes the adverse effects associated with its high concentration. To avoid the perilous effects, visible light assisted photocatalysis set-up coupled with the 42 kHz ultrasound producing bath type sonicator is used to completely mineralize the Norflurazon. TiO2, ZnO and gold loaded zinc oxide nanocatalysts were utilized to study the mineralization of Norflurazon. AueZnO shows the greater efficiency for the sonophotocatalytic removal of Norflurazon among the various nanocatalysts employed to study the mineralization. The order of Norflurazon mineralization was sonophotocatalysis > sonocatalysis > photocatalysis. The additive effect was achieved for the sonophotocatalytic degradation. The high performance liquid chromatography (HPLC) and liquid chromatography-mass spectrometric (LCMS) analyses were employed to identify the various intermediates produced during the mineralization. The identification of four pseudo molecular ions and various intermediates using the LCMS analysis evidently suggests the sonophotocatalytic degradation was preceded in various decay pathways. A suitable mechanism has been proposed for the sonophotocatalytic mineralization of Norflurazon |
| format | Article |
| id | eprints-11596 |
| institution | UANL |
| language | English |
| publishDate | 2015 |
| publisher | Pergamon Press |
| record_format | eprints |
| spelling | eprints-115962017-01-16T15:11:49Z http://eprints.uanl.mx/11596/ Sonophotocatalytic mineralization of Norflurazon in aqueous environment Sathishkumar, Panneerselvam Mangalaraja, Ramalinga Viswanathan Rozas, Oscar Vergara, Carola Mansilla, Héctor D. Gracia Pinilla, Miguel Ángel Anandan, Sambandam QC Física QD Química TP Tecnología Química Norflurazon (4-chloro-5-(methylamino)-2-[3- trifluoromethyl)phenyl]pyridazin-3(2H)-one; C12H9ClF3N3O) is an excellent weed controlling agent being practiced in the agricultural lands. The excessive addition or the undissolved Norflurazon (maximum solubility 28 mg/L at 25 C) enters into the aquatic environment and causes the adverse effects associated with its high concentration. To avoid the perilous effects, visible light assisted photocatalysis set-up coupled with the 42 kHz ultrasound producing bath type sonicator is used to completely mineralize the Norflurazon. TiO2, ZnO and gold loaded zinc oxide nanocatalysts were utilized to study the mineralization of Norflurazon. AueZnO shows the greater efficiency for the sonophotocatalytic removal of Norflurazon among the various nanocatalysts employed to study the mineralization. The order of Norflurazon mineralization was sonophotocatalysis > sonocatalysis > photocatalysis. The additive effect was achieved for the sonophotocatalytic degradation. The high performance liquid chromatography (HPLC) and liquid chromatography-mass spectrometric (LCMS) analyses were employed to identify the various intermediates produced during the mineralization. The identification of four pseudo molecular ions and various intermediates using the LCMS analysis evidently suggests the sonophotocatalytic degradation was preceded in various decay pathways. A suitable mechanism has been proposed for the sonophotocatalytic mineralization of Norflurazon Pergamon Press 2015-12-05 Article PeerReviewed text en cc_by_nc_nd http://eprints.uanl.mx/11596/1/2016_Chemosphere.pdf http://eprints.uanl.mx/11596/1.haspreviewThumbnailVersion/2016_Chemosphere.pdf Sathishkumar, Panneerselvam y Mangalaraja, Ramalinga Viswanathan y Rozas, Oscar y Vergara, Carola y Mansilla, Héctor D. y Gracia Pinilla, Miguel Ángel y Anandan, Sambandam (2015) Sonophotocatalytic mineralization of Norflurazon in aqueous environment. Chemosphere, 146. pp. 216-225. ISSN 0045-6535 http://doi.org/10.1016/j.chemosphere.2015.12.011 doi:10.1016/j.chemosphere.2015.12.011 |
| spellingShingle | QC Física QD Química TP Tecnología Química Sathishkumar, Panneerselvam Mangalaraja, Ramalinga Viswanathan Rozas, Oscar Vergara, Carola Mansilla, Héctor D. Gracia Pinilla, Miguel Ángel Anandan, Sambandam Sonophotocatalytic mineralization of Norflurazon in aqueous environment |
| thumbnail | https://rediab.uanl.mx/themes/sandal5/images/online.png |
| title | Sonophotocatalytic mineralization of Norflurazon in aqueous environment |
| title_full | Sonophotocatalytic mineralization of Norflurazon in aqueous environment |
| title_fullStr | Sonophotocatalytic mineralization of Norflurazon in aqueous environment |
| title_full_unstemmed | Sonophotocatalytic mineralization of Norflurazon in aqueous environment |
| title_short | Sonophotocatalytic mineralization of Norflurazon in aqueous environment |
| title_sort | sonophotocatalytic mineralization of norflurazon in aqueous environment |
| topic | QC Física QD Química TP Tecnología Química |
| url | http://eprints.uanl.mx/11596/1/2016_Chemosphere.pdf |
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