Reactivity of BrCl, Br<sub>2</sub>, BrOCl, Br<sub>2</sub>O, and HOBr Toward Dimethenamid in Solutions of Bromide + Aqueous Free Chlorine

Sivey, John D.; Arey, J. Samuel; Tentscher, Peter R.; Roberts, A. Lynn

doi:10.1021/es302730h

Cited by 75 publications

(112 citation statements)

References 59 publications

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“…It is conceivable that steric factors might be also influencing the rate of electrophilic aromatic bromination, since one would have expected greater polarizability in suspected bromination species, H 2 O + -Br and Br 2 compared to the chlorine analogues. 3 Nevertheless selectively dibrominated pyrido-, azepino-and azocino [1,2-a] ring-fused benzimidazoles 4m-4o were isolated in high yields of 70-86%. Monitoring the reaction of 1l with H 2 O 2 -HBr using 1 H NMR showed after 20 minutes the formation of a mixture of monobromides; 5-and 7-bromobenzimidazoles in an approximate 1:3 ratio and after 20 hours a mixture of di-and tribromides 4l and 5l remained in an approximate 2:1 ratio.…”

Section: Scheme 1 One-pot Ring-fused Benzimidazole Formation With Armentioning

confidence: 99%

One-Pot Hydrogen Peroxide and Hydrohalic Acid Induced Ring Closure and Selective Aromatic Halogenation To Give New Ring-Fused Benzimidazoles

et al. 2015

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ABSTRACT:A new series of selectively dichlorinated and dibrominated five to eight-membered ring [1,2-a] fused benzimidazoles and [1,4]oxazino [4,3-a]benzimidazoles are synthesized in mostly high yields of >80% using the reaction of hydrogen peroxide and hydrohalic acid with commercially available o-cyclic amine substituted anilines. Domestic bleach with HCl is also capable of a one-pot ring-closure and chlorination.The combination of hydrogen peroxide and hydrohalic acid (HX, where X = Cl, Br) is a source of electrophilic chlorine and bromine that can be used for facile aromatic halogenations.

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Section: Scheme 1 One-pot Ring-fused Benzimidazole Formation With Armentioning

confidence: 99%

One-Pot Hydrogen Peroxide and Hydrohalic Acid Induced Ring Closure and Selective Aromatic Halogenation To Give New Ring-Fused Benzimidazoles

et al. 2015

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“…Although these latter bromine species are less abundant compared to HOBr, their contribution to bromination reactions have been shown to become significant under certain conditions. 46 The importance of these species as brominating agents tends to increase when organic substrates are less nucleophilic and thus less reactive towards HOBr and OBr -. 46,47 Considering the observed reactivity of the UV filters investigated in the present study (Figure 2), it can be postulated that the reactivity of the fast reacting OXY and DIOXY is less likely to involve species other than the abundant HOBr and OBr -.…”

Section: Resultsmentioning

confidence: 99%

“…46 The importance of these species as brominating agents tends to increase when organic substrates are less nucleophilic and thus less reactive towards HOBr and OBr -. 46,47 Considering the observed reactivity of the UV filters investigated in the present study (Figure 2), it can be postulated that the reactivity of the fast reacting OXY and DIOXY is less likely to involve species other than the abundant HOBr and OBr -. However, with the slower reacting AVO and OMC, which are far less nucleophilic than the benzophenone-type UV filters OXY and DIOXY, the contribution of species other than HOBr and OBr -to bromination reactions could be plausible.…”

Section: Resultsmentioning

confidence: 99%

Degradation of Organic UV filters in Chlorinated Seawater Swimming Pools: Transformation Pathways and Bromoform Formation

Manasfi

Coulomb

Ravier

et al. 2017

Environ. Sci. Technol.

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Organic ultraviolet (UV) filters are used in sunscreens and other personal-care products to protect against harmful effects of exposure to UV solar radiation. Little is known about the fate of UV filters in seawater swimming pools disinfected with chlorine. The present study investigated the occurrence and fate of five commonly used organic UV filters, namely dioxybenzone, oxybenzone, avobenzone, 2-ethylhexyl-4-methoxycinnamate, and octocrylene, in chlorinated seawater swimming pools. Pool samples were collected to monitor the variation of UV filter concentrations during pool opening hours. Furthermore, laboratory-controlled chlorination experiments were conducted in seawater spiked with UV filters to investigate the reactivity of UV filters. Extracts of chlorination reaction samples were analyzed using high-resolution mass spectrometry and electron-capture detection to identify the potentially formed byproducts. In the collected pool samples, all the UV filters except dioxybenzone were detected. Chlorination reactions showed that only octocrylene was stable in chlorinated seawater. The four reactive UV filters generated brominated transformation products and disinfection byproducts. This formation of brominated products resulted from reactions between the reactive UV filters and bromine, which is formed rapidly when chlorine is added to seawater. Based on the identified byproducts, the transformation pathways of the reactive UV filters were proposed for the first time.Bromoform was generated by all the reactive UV filters at different yields. Bromal hydrate was also detected as one of the byproducts generated by oxybenzone and dioxybenzone.

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“…Hence, the model predictions in Figure 3 suggest that seawater intrusion, and in particular the co-transport of bromide with chloride, will be problematic in terms of increasing the formation of THM4 well before the water would become unpalatable due to high TDS. Furthermore, laboratory studies have shown that high chloride concentrations can catalyze the formation of highly reactive bromine species during chlorination, which further increases the formation of brominated DBPs (29). Overall, the results in Figure 3 illustrate a new and unique challenge for drinking water treatment because there are a limited number of processes that can effectively remove bromide and seawater intrusion is expected to increase in many coastal areas due over pumping, changes in recharge, and sea-level rise (30,31).…”

Section: Application Of Thm4 Formation Models To Bromide Intrusionmentioning

confidence: 99%

Meta-Analysis of Trihalomethane Formation Models and Application to Bromide Intrusion

Boyer

2015

ACS Symposium Series

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This research evaluated previously published trihalomethane (THM) formation models for their statistical robustness to be applied outside of their original calibration data set, and be used as a predictive tool at the water utility scale. All models predicted THM4 (i.e., the sum of the four chlorine-and bromine-containing THM species) based on the chlorination of natural waters and were developed using different combinations of precursor types (i.e., organic carbon concentration, UV-absorbing substances, and bromide concentration) and chlorination conditions (i.e., chlorine dose, pH, temperature, and time) as explanatory variables. All models were log (base 10) transformed into a common format, and were evaluated using a nationally representative water quality and THM4 formation data set based on the statistical metrics standard error, mean absolute percentage error, R 2 , and adjusted R 2 . The most robust log10(THM4) formation models had standard error equal to 0.226-0.262 and adjusted R 2 equal to 0.696-0.783. The THM4 formation models that included bromide as an explanatory variable tended to under predict THM4 formation as a function of increasing bromide concentration. Overall, the results of this research show that several previously published THM4 formation models were developed with the appropriate explanatory variables and calibrated with a sufficiently broad data set such that the models may give a reasonable prediction of THM4 formation, depending on the level of accuracy desired, for chlorinated water conditions separate from the original

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Reactivity of BrCl, Br₂, BrOCl, Br₂O, and HOBr Toward Dimethenamid in Solutions of Bromide + Aqueous Free Chlorine

Cited by 75 publications

References 59 publications

One-Pot Hydrogen Peroxide and Hydrohalic Acid Induced Ring Closure and Selective Aromatic Halogenation To Give New Ring-Fused Benzimidazoles

One-Pot Hydrogen Peroxide and Hydrohalic Acid Induced Ring Closure and Selective Aromatic Halogenation To Give New Ring-Fused Benzimidazoles

Degradation of Organic UV filters in Chlorinated Seawater Swimming Pools: Transformation Pathways and Bromoform Formation

Meta-Analysis of Trihalomethane Formation Models and Application to Bromide Intrusion

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Reactivity of BrCl, Br2, BrOCl, Br2O, and HOBr Toward Dimethenamid in Solutions of Bromide + Aqueous Free Chlorine

Cited by 75 publications

References 59 publications

One-Pot Hydrogen Peroxide and Hydrohalic Acid Induced Ring Closure and Selective Aromatic Halogenation To Give New Ring-Fused Benzimidazoles

One-Pot Hydrogen Peroxide and Hydrohalic Acid Induced Ring Closure and Selective Aromatic Halogenation To Give New Ring-Fused Benzimidazoles

Degradation of Organic UV filters in Chlorinated Seawater Swimming Pools: Transformation Pathways and Bromoform Formation

Meta-Analysis of Trihalomethane Formation Models and Application to Bromide Intrusion

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Product

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Reactivity of BrCl, Br₂, BrOCl, Br₂O, and HOBr Toward Dimethenamid in Solutions of Bromide + Aqueous Free Chlorine