Full Length Research Paper
References
Aliste M, Garrido I, Pérez-Lucas G, Navarro S, Fenoll J (2021). Photocatalytic oxidation of chlorantraniliprole, imidacloprid, pirimicarb, thiamethoxam and their main photoreaction interMediates as impacted by water matrix composition under UVA-LED exposure. Catalysts 11(5):609. |
|
Calza P, Sakkas VA, Medana C, Baiocchi C, Dimou A, Pelizzetti E, Albanis T (2006). Photocatalytic degradation study of diclofenac over aqueous TiO2 suspensions. Applied Catalysis B: Environmental 67(3):197-205. |
|
Chong MN, Jin B, Chow CW, Saint C (2010). Recent developments in photocatalytic water treatment technology: a review. Water Research 44(10):2997-3027. |
|
Cordova D, Benner EA, Sacher MD, Rauh JJ, Sopa JS, Lahm GP, Selby TP, Stevenson TM, Flexner L, Gutteridge S (2006). Anthranilic diamides: a new class of insecticides with a novel mode of action, ryanodine receptor activation. Pesticide Biochemistry and Physiology 84(3):196-214. |
|
Dionysiou DD, Suidan MT, Bekou E, Baudin I, La??né JM (2000). Effect of ionic strength and hydrogen peroxide on the photocatalytic degradation of 4-chlorobenzoic acid in water. Applied Catalysis B: Environmental 26(3):153-171. |
|
Fenoll J, Garrido I, Cava J, Hellín P, Flores P, Navarro S (2015). Photometabolic pathways of chlorantraniliprole in aqueous slurries containing binary and ternary oxides of Zn and Ti. Chemical Engineering Journal 264:720-727. |
|
Gad-Allah TA, Ali ME, Badawy MI (2011). Photocatalytic oxidation of ciprofloxacin under simulated sunlight. Journal of Hazardous Materials 186(1):751-755. |
|
Hafeez M, Liu S, Jan S, Gulzar A, Fernández-Grandon GM, Qasim M, Khan KA, Ali B, Kedir SJ, Fahad M, Wang M (2019). Enhanced effects of dietary tannic acid with chlorantraniliprole on life table parameters and nutritional physiology of Spodoptera exigua (Hübner). Pesticide Biochemistry and Physiology 155:108-118. |
|
Heidari A, Shahbazi A, Aminabhavi TM, Barceló D, Rtimi S (2022). A systematic review of clay-based photocatalysts for emergent micropollutants removal and microbial inactivation from aqueous media: Status and limitations. Journal of Environmental Chemical Engineering 10(6):108813. |
|
Héma O, Somé HN, Traoré O, Greenplate J, Abdennadher M (2009). Efficacy of transgenic cotton plant containing the Cry1Ac and Cry2Ab genes of Bacillus thuringiensis against Helicoverpa armigera and Syllepte derogata in cotton cultivation in Burkina Faso. Crop Protection 28(3):205-214. |
|
Khan S, Naushad Mu, Govarthanan M, Iqbal J, Alfadul SM (2022). Emerging contaminants of high concern for the environment: Current trends and future research. Environmental Research 207:112609. |
|
Koltsakidou Α, Antonopoulou M, Εvgenidou Ε, Konstantinou I, Giannakas AE, Papadaki M, Bikiaris D, Lambropoulou DA (2017). Photocatalytical removal of fluorouracil using TiO2-P25 and N/S doped TiO2 catalysts: A kinetic and mechanistic study. Science of The Total Environment 578:257-267. |
|
Lahm GP, Stevenson TM, Selby TP, Freudenberger JH, Cordova D, Flexner L, Bellin CA, Dubas CM, Smith BK, Hughes KA (2007). RynaxypyrTM: a new insecticidal anthranilic diamide that acts as a potent and selective ryanodine receptor activator. Bioorganic and Medicinal Chemistry Letters 17(22):6274-6279. |
|
Lewis K, Tzilivakis J (2017). Development of a data set of pesticide dissipation rates in/on various plant matrices for the Pesticide Properties Database (PPDB). Data 2(3):28. |
|
Li M, Gong C, Zhang Y, Zhao X, Jia Y, Pu J, Liu X, Xu X, Wang X (2022). Differences in susceptibility to chlorantraniliprole between Chilo suppressalis (Lepidoptera: Crambidae) and two dominant parasitic wasps collected from Sichuan Province, China. Pesticide Biochemistry and Physiology 185:105-150. |
|
Lin L, Wang H, Xu P (2017). Immobilized TiO2-reduced graphene oxide nanocomposites on optical fibers as high performance photocatalysts for degradation of pharmaceuticals. Chemical Engineering Journal 310:2:389-398. |
|
Magnone E, Kim M-K, Lee HJ, Park JH (2019). Testing and substantial improvement of TiO2/UV photocatalysts in the degradation of Methylene Blue. Ceramics international 45(3):3359-3367. |
|
Michael I, Hapeshi E, Aceña J, Perez S, Petrovi? M, Zapata A, Barceló D, Malato S, Fatta-Kassinos D (2013). Light-induced catalytic transformation of ofloxacin by solar Fenton in various water matrices at a pilot plant: Mineralization and characterization of major intermediate products. Science of the Total Environment 461:39-48. |
|
N'guettia RK, Gombert B, Soro B-D, Traore SK, Karpel NVL (2017). Dégradation photocatalytique du 5-fluorouracile par un système UV-A/TiO2: effet de la concentration du catalyseur et du polluant, du pH et des matrices de dilution. International Journal of Biological and Chemical Sciences 11(3):1373-1385. |
|
Pereira JHOS, Reis AC, Queirós D, Nunes OC, Borges MT, Vilar VJP, Boaventura RAR (2013). Insights into solar TiO2-assisted photocatalytic oxidation of two antibiotics employed in aquatic animal production, oxolinic acid and oxytetracycline. Science of the Total Environment 463-464:274-283. |
|
Prieto-Rodríguez L, Oller I, Klamerth N, Agüera A, Rodríguez EM, Malato S (2013). Application of solar AOPs and ozonation for elimination of micropollutants in municipal wastewater treatment plant effluents. Water Research 47(4):1521-1528. |
|
Rodrigues-Silva C, Maniero MG, Rath S, Guimarães JR (2013). Degradation of flumequine by photocatalysis and evaluation of antimicrobial activity. Chemical Engineering Journal 224:46-52. |
|
Sheng H, Li Q, Ma W, Ji H, Chen C, Zhao J (2013). Photocatalytic degradation of organic pollutants on surface anionized TiO2: Common effect of anions for high hole-availability by water. Applied Catalysis B: Environmental 138:212-218. |
|
Simon JC, Dauby B, Nonet S (2008). Evaluation de l'efficacité de l'oxydation avancée par photocatalyse hétérogène UV/TiO2 sur un effluent industriel contaminé par des composés organiques non biodégradables (colorants). Revue scientifique des ISILF 22:18-20. |
|
Xekoukoulotakis NP, Drosou C, Brebou C, Chatzisymeon E, Hapeshi E, Fatta-Kassinos D, Mantzavinos D (2011). Kinetics of UV-A/TiO2 photocatalytic degradation and mineralization of the antibiotic sulfamethoxazole in aqueous matrices. Catalysis Today 161(1):163-168. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0