Reactivities of hypochlorous and hypobromous acid, chlorine monoxide, hypobromous acidium ion, chlorine, bromine, and bromine chloride in electrophilic aromatic substitution reactions with p-xylene in water

Voudrias, Evangelos A.; Reinhard, Martin

doi:10.1021/es00174a009

Cited by 70 publications

(103 citation statements)

References 16 publications

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“…A mechanism for the bromination of aromatic compounds under the conditions reported here is supported by previous research involving treatment of aqueous systems containing Cl À , Br À , and H 2 O 2 , under acidic conditions [13][14][15] (Table 1; R5-R9). When acid is present, Cl À from sodium chloride is protonated to form hydrochloric acid.…”

Section: Bromination Reaction Mechanismsupporting

confidence: 82%

Bromination of aromatic compounds by residual bromide in sodium chloride matrix modifier salt during heated headspace GC/MS analysis

Fine

Huling

2013

Talanta

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Section: Bromination Reaction Mechanismsupporting

confidence: 82%

Bromination of aromatic compounds by residual bromide in sodium chloride matrix modifier salt during heated headspace GC/MS analysis

Fine

Huling

2013

Talanta

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“…Analogous reports in the chlorination literature9,18,19,57,58 have attributed a second-order dependence of chlorination rates on [FAC] o to reactions with Cl 2 O. Indeed, Cl 2 O was found to be nearly 8 million times more inherently reactive than HOCl in reactions with DM 18.…”

mentioning

confidence: 55%

“…An important exception is the work of Voudrias and Reinhard, 9,10 who determined Br 2 and BrCl to be a factor of 2300 and 4.9 × 10 6 , respectively, more reactive than HOBr in brominating p-xylene.…”

Section: ■ Introductionmentioning

confidence: 99%

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

Sivey¹,

Arey²,

Tentscher³

et al. 2013

Environ. Sci. Technol.

101

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HOBr, formed via oxidation of bromide by free available chlorine (FAC), is frequently assumed to be the sole species responsible for generating brominated disinfection byproducts (DBPs). Our studies reveal that BrCl, Br(2), BrOCl, and Br(2)O can also serve as brominating agents of the herbicide dimethenamid in solutions of bromide to which FAC was added. Conditions affecting bromine speciation (pH, total free bromine concentration ([HOBr](T)), [Cl(-)], and [FAC](o)) were systematically varied, and rates of dimethenamid bromination were measured. Reaction orders in [HOBr](T) ranged from 1.09 (±0.17) to 1.67 (±0.16), reaching a maximum near the pK(a) of HOBr. This complex dependence on [HOBr](T) implicates Br(2)O as an active brominating agent. That bromination rates increased with increasing [Cl(-)], [FAC](o) (at constant [HOBr](T)), and excess bromide (where [Br(-)](o)>[FAC](o)) implicate BrCl, BrOCl, and Br(2), respectively, as brominating agents. As equilibrium constants for the formation of Br(2)O and BrOCl (aq) have not been previously reported, we have calculated these values (and their gas-phase analogues) using benchmark-quality quantum chemical methods [CCSD(T) up to CCSDTQ calculations plus solvation effects]. The results allow us to compute bromine speciation and hence second-order rate constants. Intrinsic brominating reactivity increased in the order: HOBr ≪ Br(2)O < BrOCl ≈ Br(2) < BrCl. Our results indicate that species other than HOBr can influence bromination rates under conditions typical of drinking water and wastewater chlorination.

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“…Although the formation of Cl + can explain the kinetics of chlorination of aromatic compounds by HOCl in aqueous solution, thermodynamic arguments show that Cl + is highly unstable and therefore its concentration is likely too low to be kinetically significant (Swain and Crist, 1972). The chlorination reaction is presumably initiated by the conversion of HOCl into more reactive chlorine species such as Cl 2 or Cl 2 O (Swain and Crist, 1972;Voudrias and Reinhard, 1988;Cherney et al, 2006;Sivey and Roberts, 2012). After the addition of chlorine to the double bond, the reaction is generally followed by the addition of HO À or the elimination of H + (Deborde and von Gunten, 2008).…”

Section: Mechanisms Of the Formation Of Trichloromethyl Compoundsmentioning

confidence: 99%

Formation mechanisms of trichloromethyl-containing compounds in the terrestrial environment: A critical review

Breider

Albers

2015

Chemosphere

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Reactivities of hypochlorous and hypobromous acid, chlorine monoxide, hypobromous acidium ion, chlorine, bromine, and bromine chloride in electrophilic aromatic substitution reactions with p-xylene in water

Cited by 70 publications

References 16 publications

Bromination of aromatic compounds by residual bromide in sodium chloride matrix modifier salt during heated headspace GC/MS analysis

Bromination of aromatic compounds by residual bromide in sodium chloride matrix modifier salt during heated headspace GC/MS analysis

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

Formation mechanisms of trichloromethyl-containing compounds in the terrestrial environment: A critical review

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Reactivities of hypochlorous and hypobromous acid, chlorine monoxide, hypobromous acidium ion, chlorine, bromine, and bromine chloride in electrophilic aromatic substitution reactions with p-xylene in water

Cited by 70 publications

References 16 publications

Bromination of aromatic compounds by residual bromide in sodium chloride matrix modifier salt during heated headspace GC/MS analysis

Bromination of aromatic compounds by residual bromide in sodium chloride matrix modifier salt during heated headspace GC/MS analysis

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

Formation mechanisms of trichloromethyl-containing compounds in the terrestrial environment: A critical review

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