The interaction between atrazine and the mineral horizon of soil: a spectroscopic study

Czaplicka, Marianna; Barchańska, Hanna; Jaworek, Katarzyna; Kaczmarczyk, Bożena

doi:10.1007/s11368-017-1843-9

Cited by 21 publications

(5 citation statements)

References 46 publications

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“…The non-adsorption on alumina suggests that in the case of kaolin, which contains both silica and alumina, the adsorption occurs due to the surface groups of silica. This absence of interaction between alumina and atrazine was also observed by Czaplicka et al [36], who simultaneously confirmed through respective FT-IR measurements that the 1,3,5-azidine ring of the atrazine molecule interacts with the SiO 2 molecules, possibly through the formation of hydrogen bonds between atrazine and silica, such as the one shown in Figure S4.…”

Section: Discussionsupporting

confidence: 81%

“…Therefore, the contact between the pollutant and the catalyst surface is necessary. The improvement regarding the removal of atrazine only by the presence of SiO 2 (Figure 2) suggests that the organic molecule can be bonded (through hydrogen bonds) with the Si surface, but not with the Al, as other relevant research has also previously reported [36][37][38].…”

Section: Discussionmentioning

confidence: 55%

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Investigation of the Removal of Several Micropollutants Presenting Different Ozone Reactivities from Natural Potable Water Matrix by the Application of Ozonation with the Use of SiO2 and Al2O3 as Catalysts

et al. 2022

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The aim of this study was to investigate the correlation between solid materials and micropollutants, aiming to enhance the removal of the latter during the application of the ozonation process. For that purpose, two solid materials (SiO2 and Al2O3) presenting catalytic activity were used for the removal of eight micropollutants from natural potable water, containing them either separately or in a mixture, by ozonation. The studied micropollutants, presenting different physicochemical properties, are atrazine, ibuprofen, p-CBA (ozone-resistant compounds), benzotriazole, caffeine (with moderate ozone reactivity), carbamazepine, fluoxetine, paracetamol (easily oxidized by ozone). The residual concentrations of carbamazepine, paracetamol, and fluoxetine were found to be lower than 5.9 μg/L, 1.2 μg/L, and 15.5 μg/L, respectively, after 1 min of oxidation time in all studied systems. In contrast, benzotriazole and caffeine removal was enhanced by the addition of catalysts; in both cases the best catalyst was SiO2. Regarding the ozone-resistant compounds, both examined materials enhanced the removal of ibuprofen and p-CBA; however, the best was found to be SiO2 and Al2O3, respectively. In contrast, Al2O3 cannot be considered as an effective catalyst for the removal of atrazine, which presents chemical affinity only with SiO2 and for this reason it can be removed to a higher extent by its presence. Similar results were observed in the study of the mixture, although in this system, the residual concentration of all micropollutants was found to be under the detection limit after the application of catalytic ozonation.

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Section: Discussionsupporting

confidence: 81%

Section: Discussionmentioning

confidence: 55%

Investigation of the Removal of Several Micropollutants Presenting Different Ozone Reactivities from Natural Potable Water Matrix by the Application of Ozonation with the Use of SiO2 and Al2O3 as Catalysts

et al. 2022

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“…Namely, although ozone is adsorbed on the surface of the catalyst, promoting the formation of hydroxyl radicals, atrazine molecules are not adsorbed on the catalytic surface, indicating that the mechanism of this organic pollutant's degradation mainly includes its oxidation in the liquid phase. A certain improvement, regarding the removal of atrazine, was only observed in the presence of SiO 2 , suggesting that this organic molecule can bind (probably via weak hydrogen bonds) to the Si surface, but not with the other examined materials/catalysts, as the relevant previous research has also reported [38][39][40].…”

Section: Effect Of Catalysts' Concentrations On the Removal Of Microp...mentioning

confidence: 85%

Evaluation of Heterogeneous Catalytic Ozonation Process for the Removal of Micropollutants from Water/Wastewater: Application of a Novel Pilot-Scale Continuous Flow System

Kaprara,

Belesakos,

Kollis

et al. 2023

Catalysts

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The present study evaluates the removal of micropollutants from water/wastewater contaminated sources through the application of a heterogeneous catalytic ozonation process, using a pilot-scale continuous operation unit, composed of a membrane module for the diffusion and effective dilution of ozone into the liquid phase to be treated and a plug flow reactor/continuous stirred tank reactor (PFR/CSTR) contact reactor system in series, where the catalyst is recirculated in dispersion mode. The solid materials tested as catalysts are natural and calcined zeolite, Bayoxide and alumina, whereas the examined micropollutants, used in this case as probe compounds, are p-chlorobenzoic acid (p-CBA), atrazine, benzotriazole and carbamazepine. A high-performance liquid chromatography system was used to determine the removal of micropollutants. In the case of p-CBA, an ozone-resistant compound, the addition of catalyst was found to significantly enhance its degradation rate, leading to >99% removal under the optimum defined conditions, i.e., in terms of catalyst concentration, pH, temperature, and process time. On the other hand, in the case of atrazine, a different ozone-resistant compound, the introduction of examined catalysts in the ozonation process was found to reduce the degradation of micropollutant, when compared with the application of single ozonation, indicating the importance of specific affinity between the pollutant and the solid material used as catalyst. Benzotriazole, a moderately ozone-reactive compound was degraded by more than 95% under all experimental conditions and catalysts tested in the pilot unit, while carbamazepine, a highly ozone-reactive compound, was completely removed even during the first stage of treatment process (i.e., at the membrane contactor). When increasing the pH value (in the range 6–8) and the contact time, the performance of catalytic ozonation process also improved.

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“…Here, we primarily focus on the interfacial structure and the surface anchoring mechanism of carbaryl on silica using a combination of surface-selective nonlinear vibrational spectroscopy and computational modeling, including molecular dynamics (MD) simulations and ab initio calculations of vibrational spectra. Raman and Fourier transform infrared (FTIR) vibrational spectroscopic methods have been widely applied to study pesticides in bulk solutions and films. ,− Here, we apply vibrational sum frequency generation (vSFG) spectroscopy, an in situ technique particularly suitable for the analysis of molecules at buried interfaces and sensitive to sub-monolayer amounts of adsorbates. ,,− As a coherent nonlinear spectroscopic technique, the vSFG response is highly sensitive to molecular orientation and ordering at the surface, , making vSFG a powerful technique for obtaining detailed chemical information regarding the molecular composition, structure, and interactions of molecules at interfaces. As such, it has become a versatile tool for studies of environmental surfaces and interfaces under ambient conditions ,,− and for revealing structure–activity relationships of surface-immobilized compounds, like antimicrobial coatings. − …”

Section: Introductionmentioning

confidence: 99%

Binding and Orientation of Carbamate Pesticides on Silica Surfaces

et al. 2023

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Carbaryl (1-naphthyl-N-methyl carbamate) is one of the most abundantly used carbamate pesticides and a common ground and surface water contaminant. Despite this, there is a lack of understanding regarding the specific interactions between this pesticide and mineral particles with environmental impact, including soil and dust aerosol interfaces. Here, we examine the adsorption of carbaryl to hydrophilic silica surfaces by applying a combination of vibrational Sum Frequency Generation (vSFG) spectroscopy and atomistic simulations. We find that carbaryl molecules readily adsorb to silica/air interfaces by hydrogen-bonding interactions between the carbamate group (primarily the −NH terminus, secondarily the ester −CO ester moiety) and the surface silanols and silenolates. On average, this results in the naphthyl aromatic ring being oriented roughly parallel to the surface. Our characterization of interactions of carbamate pesticides at silica surfaces is particularly valuable for understanding the transport, stabilization, and potential degradation mechanisms of carbamate pesticides by interfaces during downstream processes of environmental relevance.

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The interaction between atrazine and the mineral horizon of soil: a spectroscopic study

Cited by 21 publications

References 46 publications

Investigation of the Removal of Several Micropollutants Presenting Different Ozone Reactivities from Natural Potable Water Matrix by the Application of Ozonation with the Use of SiO2 and Al2O3 as Catalysts

Investigation of the Removal of Several Micropollutants Presenting Different Ozone Reactivities from Natural Potable Water Matrix by the Application of Ozonation with the Use of SiO2 and Al2O3 as Catalysts

Evaluation of Heterogeneous Catalytic Ozonation Process for the Removal of Micropollutants from Water/Wastewater: Application of a Novel Pilot-Scale Continuous Flow System

Binding and Orientation of Carbamate Pesticides on Silica Surfaces

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