Impact of pyruvic acid photolysis on acetaldehyde  and peroxy radical formation in the boreal forest:  theoretical calculations and model results

Eger, Philipp; Vereecken, Luc; Sander, R.; Schuladen, Jan; Sobanski, Nicolas; Fischer, H.; Karu, Einar; Williams, Jonathan; Vakkari, Ville; Petäj̈ä, Tuukka; Lelieveld, J.; Pozzer, Andrea; Crowley, John N.

doi:10.5194/acp-21-14333-2021

Cited by 3 publications

(1 citation statement)

References 75 publications

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“…Indeed, the photochemistry of PA in the isolated gas phase or in atmospheric conditions has peculiar reaction dynamics, dominated by photo-dissociation to form CO 2 and other fragments. 24,27,29,[31][32][33][34][35][36][37][38][39] In the troposphere, the solar radiation photolysis of PA is, for instance, the dominant destruction process of this acid rather than its reactions with free radicals, such as OH. 40 Experimentally, the photochemistry of PA has been studied either by photon excitation at l $ 320-380 nm (¼ 3.26-3.87 eV) or at l $ 193 nm (¼ 6.42 eV).…”

Section: Introductionmentioning

confidence: 99%

Probing the dynamics of the photo-induced decarboxylation of neutral and ionic pyruvic acid

et al. 2022

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Section: Introductionmentioning

confidence: 99%

Probing the dynamics of the photo-induced decarboxylation of neutral and ionic pyruvic acid

et al. 2022

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Tropospheric Fate of Methylhydroxycarbene and the Ability of a Single Water Molecule to Efficiently Promote Its Isomerization into Acetaldehyde

Mondal,

Sadhukhan,

Sinha

et al. 2024

J. Am. Chem. Soc.

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Unveiling the environmental significance of acetylperoxyl radical: Reactivity quantification and kinetic modeling

Wang,

Schaefer,

Lisouskaya

et al. 2024

PNAS Nexus

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Acetylperoxyl radical (CH3C(O)OO●) is among highly reactive organic radicals which are known to play crucial roles in atmospheric chemistry, aqueous chemistry and, most recently, peracetic acid (PAA)-based advanced oxidation processes. However, fundamental knowledge for its reactivity is scarce and severely hampers the understanding of relevant environmental processes. Herein, three independent experimental approaches were exploited for revelation and quantification of the reaction rates of acetylperoxyl radical. First, we developed and verified laser flash photolysis (LFP) of biacetyl, ultraviolet (UV) photolysis of biacetyl, and pulse radiolysis of acetaldehyde, each as a clean source of CH3C(O)OO●. Then, using competition kinetics and selection of suitable probe and competitor compounds, the rate constants between CH3C(O)OO● and compounds of diverse structures were determined. The three experimental approaches complemented in reaction time scale and ease of operation, and provided cross-validation of the rate constants. Moreover, formation of CH3C(O)OO● was verified by spin-trapped electron paramagnetic resonance (EPR), and potential influence of other reactive species in the systems was assessed. Overall, CH3C(O)OO● displays distinctively high reactivity and selectivity, reacting especially favorably with naphthyl and diene compounds (k ∼ 107-108 M-1s-1) but sluggishly with N- and S-containing groups. Significantly, we demonstrated that incorporating acetylperoxyl radical-oxidation reactions significantly improved the accuracy in modeling the degradation of environmental micropollutants by UV/PAA treatment. This study is among the most comprehensive investigation for peroxyl radical reactivity to date, and establishes a robust methodology for investigating organic radical chemistry. The determined rate constants strengthen kinetic databases and improve modeling accuracy for natural and engineered systems.

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Impact of pyruvic acid photolysis on acetaldehyde and peroxy radical formation in the boreal forest: theoretical calculations and model results

Cited by 3 publications

References 75 publications

Probing the dynamics of the photo-induced decarboxylation of neutral and ionic pyruvic acid

Probing the dynamics of the photo-induced decarboxylation of neutral and ionic pyruvic acid

Tropospheric Fate of Methylhydroxycarbene and the Ability of a Single Water Molecule to Efficiently Promote Its Isomerization into Acetaldehyde

Unveiling the environmental significance of acetylperoxyl radical: Reactivity quantification and kinetic modeling

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