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Chemical composition of nanoparticles from α-pinene nucleation and the influence of isoprene and relative humidity at low temperature.

Authors :
Caudillo, Lucía
Rörup, Birte
Heinritzi, Martin
Marie, Guillaume
Simon, Mario
Wagner, Andrea C.
Müller, Tatjana
Granzin, Manuel
Amorim, Antonio
Ataei, Farnoush
Baalbaki, Rima
Bertozzi, Barbara
Brasseur, Zoé
Chiu, Randall
Chu, Biwu
Dada, Lubna
Duplissy, Jonathan
Finkenzeller, Henning
Gonzalez Carracedo, Loïc
He, Xu-Cheng
Source :
Atmospheric Chemistry & Physics; 2021, Vol. 21 Issue 22, p17099-17114, 16p
Publication Year :
2021

Abstract

Biogenic organic precursors play an important role in atmospheric new particle formation (NPF). One of the major precursor species is α -pinene, which upon oxidation can form a suite of products covering a wide range of volatilities. Highly oxygenated organic molecules (HOMs) comprise a fraction of the oxidation products formed. While it is known that HOMs contribute to secondary organic aerosol (SOA) formation, including NPF, they have not been well studied in newly formed particles due to their very low mass concentrations. Here we present gas- and particle-phase chemical composition data from experimental studies of α -pinene oxidation, including in the presence of isoprene, at temperatures (- 50 and - 30 ∘ C) and relative humidities (20 % and 60 %) relevant in the upper free troposphere. The measurements took place at the CERN Cosmics Leaving Outdoor Droplets (CLOUD) chamber. The particle chemical composition was analyzed by a thermal desorption differential mobility analyzer (TD-DMA) coupled to a nitrate chemical ionization–atmospheric pressure interface–time-of-flight (CI-APi-TOF) mass spectrometer. CI-APi-TOF was used for particle- and gas-phase measurements, applying the same ionization and detection scheme. Our measurements revealed the presence of C 8-10 monomers and C 18-20 dimers as the major compounds in the particles (diameter up to ∼ 100 nm). Particularly, for the system with isoprene added, C 5 (C 5 H 10 O 5-7) and C 15 compounds (C 15 H 24 O 5-10) were detected. This observation is consistent with the previously observed formation of such compounds in the gas phase. However, although the C 5 and C 15 compounds do not easily nucleate, our measurements indicate that they can still contribute to the particle growth at free tropospheric conditions. For the experiments reported here, most likely isoprene oxidation products enhance the growth of particles larger than 15 nm. Additionally, we report on the nucleation rates measured at 1.7 nm (J1.7nm) and compared with previous studies, we found lower J1.7nm values, very likely due to the higher α -pinene and ozone mixing ratios used in the present study. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
16807316
Volume :
21
Issue :
22
Database :
Complementary Index
Journal :
Atmospheric Chemistry & Physics
Publication Type :
Academic Journal
Accession number :
153894162
Full Text :
https://doi.org/10.5194/acp-21-17099-2021