Brown Carbon Production in Ammonium- or Amine-Containing Aerosol Particles by Reactive Uptake of Methylglyoxal and Photolytic Cloud Cycling

Brown Carbon Production in Ammonium- or Amine-Containing Aerosol Particles by Reactive Uptake of Methylglyoxal and Photolytic Cloud Cycling

The effects of methylglyoxal uptake on the physical and optical properties of aerosol containing amines or ammonium sulfate were determined before and after cloud processing in a temperature- and RH-controlled chamber. The formation of brown carbon was observed upon methylglyoxal addition, detected...

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Veröffentlicht in:Environmental science & technology 2017-07, Vol.51 (13), p.7458-7466
Hauptverfasser: De Haan, David O, Hawkins, Lelia N, Welsh, Hannah G, Pednekar, Raunak, Casar, Jason R, Pennington, Elyse A, de Loera, Alexia, Jimenez, Natalie G, Symons, Michael A, Zauscher, Melanie, Pajunoja, Aki, Caponi, Lorenzo, Cazaunau, Mathieu, Formenti, Paola, Gratien, Aline, Pangui, Edouard, Doussin, Jean-François
Format: Artikel
Sprache:eng
Schlagworte:
Activation energy
Aerosols
Albedo
Amines
Ammonia
Ammonium
Ammonium Compounds
Ammonium sulfate
Browning
Carbon
Chemical Sciences
Clouds
Experiments
Glycine
Methylamine
Optical properties
Organic carbon
Organic chemicals
Particulates
Pyruvaldehyde
Refractivity
Scattering
Sciences of the Universe
Seeds
Sulfates
Temperature effects
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Beschreibung
Zusammenfassung:The effects of methylglyoxal uptake on the physical and optical properties of aerosol containing amines or ammonium sulfate were determined before and after cloud processing in a temperature- and RH-controlled chamber. The formation of brown carbon was observed upon methylglyoxal addition, detected as an increase in water-soluble organic carbon mass absorption coefficients below 370 nm and as a drop in single-scattering albedo at 450 nm. The imaginary refractive index component k 450 reached a maximum value of 0.03 ± 0.009 with aqueous glycine aerosol particles. Browning of solid particles occurred at rates limited by chamber mixing (
ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.7b00159