Redistribution of black carbon in aerosol particles undergoing liquid-liquid phase separation
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Date
2015-04-16
Publication Type
Journal Article
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yes
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Abstract
Atmospheric black carbon (BC) is a major anthropogenic greenhouse agent, yet substantial uncertainties obstruct understanding its radiative forcing. Particularly debated is the extent of the absorption enhancement by internally compared to externally mixed BC, which critically depends on the interior morphology of the BC-containing particles. Here we suggest that a currently unaccounted morphology, optically very different from the customary core-shell and volume-mixing assumptions, likely occurs in aerosol particles undergoing liquid-liquid phase separation (LLPS). Using Raman spectroscopy on micrometer-sized droplets, we show that LLPS of an organic/inorganic model system drives redistribution of BC into the outer (organic) phase of the host particle. This results in an inverted core-shell structure, in which a transparent aqueous core is surrounded by a BC-containing absorbing shell. Based on Mie theory calculations, we estimate that such a redistribution can increase the absorption efficiency of internally mixed BC aerosols by up to 25% compared to the core-shell approximation.
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published
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Journal / series
Volume
42 (7)
Pages / Article No.
2532 - 2539
Publisher
American Geophysical Union
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Edition / version
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Date collected
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Subject
Morphology of mixed aerosols; Black carbon; Liquid-liquid phase separation; Light absorption in the atmosphere
Organisational unit
03517 - Peter, Thomas (emeritus) / Peter, Thomas (emeritus)