Formation of Chlorine in the Atmosphere by Reaction of Hypochlorous Acid with Seawater

Imon Mandal; Natalia V. Karimova; Itai Zakai; R. Benny Gerber

doi:10.1021/acs.jpclett.3c03035

Formation of Chlorine in the Atmosphere by Reaction of Hypochlorous Acid with Seawater

Imon Mandal, Natalia V. Karimova, Itai Zakai, R. Benny Gerber^*

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

The highly reactive dihalogens play a significant role in the oxidative chemistry of the troposphere. One of the main reservoirs of these halogens is hypohalous acids, HOX, which produce dihalogens in the presence of halides (Y^-), where X, Y = Cl, Br, I. These reactions occur in and on aerosol particles and seawater surfaces and have been studied experimentally and by field observations. However, the mechanisms of these atmospheric reactions are still unknown. Here, we establish the atomistic mechanism of HOCl + Cl^- → Cl₂ + OH^- at the surface of the water slab by performing ab initio molecular dynamics (AIMD) simulations. Main findings are (1) This reaction proceeds by halogen-bonded complexes of (HOCl)···(Cl^-)_aq surrounded with the neighboring water molecules. (2) The halogen bonded (HOCl)···(Cl^-)_aq complexes undergo charge transfer from Cl^- to OH^- to form transient Cl₂ at neutral pH. (3) The addition of a proton to one proximal water greatly facilitates the Cl₂ formation, which explains the enhanced rate at low pH.

Original language	English
Pages (from-to)	432-438
Number of pages	7
Journal	Journal of Physical Chemistry Letters
Volume	15
Issue number	2
DOIs	https://doi.org/10.1021/acs.jpclett.3c03035
State	Published - 18 Jan 2024

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© 2024 American Chemical Society.

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title = "Formation of Chlorine in the Atmosphere by Reaction of Hypochlorous Acid with Seawater",

abstract = "The highly reactive dihalogens play a significant role in the oxidative chemistry of the troposphere. One of the main reservoirs of these halogens is hypohalous acids, HOX, which produce dihalogens in the presence of halides (Y-), where X, Y = Cl, Br, I. These reactions occur in and on aerosol particles and seawater surfaces and have been studied experimentally and by field observations. However, the mechanisms of these atmospheric reactions are still unknown. Here, we establish the atomistic mechanism of HOCl + Cl- → Cl2 + OH- at the surface of the water slab by performing ab initio molecular dynamics (AIMD) simulations. Main findings are (1) This reaction proceeds by halogen-bonded complexes of (HOCl)···(Cl-)aq surrounded with the neighboring water molecules. (2) The halogen bonded (HOCl)···(Cl-)aq complexes undergo charge transfer from Cl- to OH- to form transient Cl2 at neutral pH. (3) The addition of a proton to one proximal water greatly facilitates the Cl2 formation, which explains the enhanced rate at low pH.",

author = "Imon Mandal and Karimova, \{Natalia V.\} and Itai Zakai and Gerber, \{R. Benny\}",

note = "Publisher Copyright: {\textcopyright} 2024 American Chemical Society.",

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doi = "10.1021/acs.jpclett.3c03035",

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AU - Mandal, Imon

AU - Karimova, Natalia V.

AU - Zakai, Itai

AU - Gerber, R. Benny

PY - 2024/1/18

Y1 - 2024/1/18

N2 - The highly reactive dihalogens play a significant role in the oxidative chemistry of the troposphere. One of the main reservoirs of these halogens is hypohalous acids, HOX, which produce dihalogens in the presence of halides (Y-), where X, Y = Cl, Br, I. These reactions occur in and on aerosol particles and seawater surfaces and have been studied experimentally and by field observations. However, the mechanisms of these atmospheric reactions are still unknown. Here, we establish the atomistic mechanism of HOCl + Cl- → Cl2 + OH- at the surface of the water slab by performing ab initio molecular dynamics (AIMD) simulations. Main findings are (1) This reaction proceeds by halogen-bonded complexes of (HOCl)···(Cl-)aq surrounded with the neighboring water molecules. (2) The halogen bonded (HOCl)···(Cl-)aq complexes undergo charge transfer from Cl- to OH- to form transient Cl2 at neutral pH. (3) The addition of a proton to one proximal water greatly facilitates the Cl2 formation, which explains the enhanced rate at low pH.

AB - The highly reactive dihalogens play a significant role in the oxidative chemistry of the troposphere. One of the main reservoirs of these halogens is hypohalous acids, HOX, which produce dihalogens in the presence of halides (Y-), where X, Y = Cl, Br, I. These reactions occur in and on aerosol particles and seawater surfaces and have been studied experimentally and by field observations. However, the mechanisms of these atmospheric reactions are still unknown. Here, we establish the atomistic mechanism of HOCl + Cl- → Cl2 + OH- at the surface of the water slab by performing ab initio molecular dynamics (AIMD) simulations. Main findings are (1) This reaction proceeds by halogen-bonded complexes of (HOCl)···(Cl-)aq surrounded with the neighboring water molecules. (2) The halogen bonded (HOCl)···(Cl-)aq complexes undergo charge transfer from Cl- to OH- to form transient Cl2 at neutral pH. (3) The addition of a proton to one proximal water greatly facilitates the Cl2 formation, which explains the enhanced rate at low pH.

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Formation of Chlorine in the Atmosphere by Reaction of Hypochlorous Acid with Seawater

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