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Article Dans Une Revue Proc.Nat.Acad.Sci. Année : 2019

Impact of a hydrophobic ion on the early stage of atmospheric aerosol formation

Résumé

Atmospheric aerosols are one of the major factors affecting planetary climate, and the addition of anthropogenic molecules into the atmosphere is known to strongly affect cloud formation. The broad variety of compounds present in such dilute media and their specific underlying thermalization processes at the nanoscale make a complete quantitative description of atmospheric aerosol formation certainly challenging. In particular, it requires fundamental knowledge about the role of impurities in water cluster growth, a crucial step in the early stage of aerosol and cloud formation. Here, we show how a hydrophobic pyridinium ion within a water cluster drastically changes the thermalization properties, which will in turn change the corresponding propensity for water cluster growth. The combination of velocity map imaging with a recently developed mass spectrometry technique allows the direct measurement of the velocity distribution of the water molecules evaporated from excited clusters. In contrast to previous results on pure water clusters, the low-velocity part of the distributions for pyridinium-doped water clusters is composed of 2 distinct Maxwell–Boltzmann distributions, indicating out-of-equilibrium evaporation. More generally, the evaporation of water molecules from excited clusters is found to be much slower when the cluster is doped with a pyridinium ion. Therefore, the presence of a contaminant molecule in the nascent cluster changes the energy storage and disposal in the early stages of gas-to-particle conversion, thereby leading to an increased rate of formation of water clusters and consequently facilitating homogeneous nucleation at the early stages of atmospheric aerosol formation.

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Physique [physics]

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https://hal.science/hal-02340285

Soumis le : mercredi 30 octobre 2019-17:32:58

Dernière modification le : jeudi 11 avril 2024-13:18:12

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hal-02340285 , version 1 (30-10-2019)

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Linda Feketeová, Paul Bertier, Thibaud Salbaing, Toshiyuki Azuma, Florent Calvo, et al.. Impact of a hydrophobic ion on the early stage of atmospheric aerosol formation. Proc.Nat.Acad.Sci., 2019, pp.201911136. ⟨10.1073/pnas.1911136116⟩. ⟨hal-02340285⟩

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IN2P3 UGA CNRS UNIV-LYON1 LIPHY IP2I UDL CMS PHABIO MANOIR THEORIE COSMOLOGIE MATNUC NEUTRINOS_IP2I ALICE_IP2I ONDES_GRAVITATIONNELLES ANR MATICE
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