Atmospheric β‑Caryophyllene-Derived Ozonolysis Products at Interfaces

By integrating organic synthesis, secondary organic aerosol synthesis and collection, density functional theory (DFT) calculations, and vibrational sum frequency generation (SFG) spectroscopy, we identify close spectral matches between the surface vibrational spectra of β-caryophyllene-derived secon...

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Veröffentlicht in:	ACS earth and space chemistry 2019-02, Vol.3 (2), p.158-169
Hauptverfasser:	Bé, Ariana Gray, Chase, Hilary M, Liu, Yangdongling, Upshur, Mary Alice, Zhang, Yue, Tuladhar, Aashish, Chase, Zizwe A, Bellcross, Aleia D, Wang, Hong-Fei, Wang, Zheming, Batista, Victor S, Martin, Scot T, Thomson, Regan J, Geiger, Franz M
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Sprache:	eng
Schlagworte:	vibrational sum frequency generation spectroscopy, ß-caryophyllene ozonolysis, sesquiterpene chemistry, secondary organic material, phase-resolved SFG, Density functional theory calculations
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creator	Bé, Ariana Gray Chase, Hilary M Liu, Yangdongling Upshur, Mary Alice Zhang, Yue Tuladhar, Aashish Chase, Zizwe A Bellcross, Aleia D Wang, Hong-Fei Wang, Zheming Batista, Victor S Martin, Scot T Thomson, Regan J Geiger, Franz M
description	By integrating organic synthesis, secondary organic aerosol synthesis and collection, density functional theory (DFT) calculations, and vibrational sum frequency generation (SFG) spectroscopy, we identify close spectral matches between the surface vibrational spectra of β-caryophyllene-derived secondary organic material (SOM) and those of β-caryophyllene aldehyde and β-caryophyllonic acid at various interfaces. Combined with the record high surface tension depression described previously for these same oxidation products, we discuss possibilities for an intrinsically chemical origin for cloud activation by terpene-derived surfactants. Although the present study does not unequivocally identify the synthesized and analyzed oxidation products on the β-caryophyllene-derived SOM surfaces, these two compounds appear to be the most surface active out of the series and have also been foci of previous β-caryophyllene field and laboratory studies. An orientation analysis by phase-resolved SFG spectroscopy reveals a “pincer-like” configuration of the β-caryophyllene oxidation products, albeit on a model quartz surface, that somewhat resembles the orientation of inverse double-tailed surfactants at the surfaces of biological systems. The structural information suggests that the less polar moiety of a surface-localized oxidation product, such as those studied here, may be the first site-of-contact for a gas-phase molecule approaching an SOA particle containing surface-active β-caryophyllene oxidation products.
doi_str_mv	10.1021/acsearthspacechem.8b00156
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Although the present study does not unequivocally identify the synthesized and analyzed oxidation products on the β-caryophyllene-derived SOM surfaces, these two compounds appear to be the most surface active out of the series and have also been foci of previous β-caryophyllene field and laboratory studies. An orientation analysis by phase-resolved SFG spectroscopy reveals a “pincer-like” configuration of the β-caryophyllene oxidation products, albeit on a model quartz surface, that somewhat resembles the orientation of inverse double-tailed surfactants at the surfaces of biological systems. 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Although the present study does not unequivocally identify the synthesized and analyzed oxidation products on the β-caryophyllene-derived SOM surfaces, these two compounds appear to be the most surface active out of the series and have also been foci of previous β-caryophyllene field and laboratory studies. An orientation analysis by phase-resolved SFG spectroscopy reveals a “pincer-like” configuration of the β-caryophyllene oxidation products, albeit on a model quartz surface, that somewhat resembles the orientation of inverse double-tailed surfactants at the surfaces of biological systems. 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(PNNL), Richland, WA (United States)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Atmospheric β‑Caryophyllene-Derived Ozonolysis Products at Interfaces</atitle><jtitle>ACS earth and space chemistry</jtitle><addtitle>ACS Earth Space Chem</addtitle><date>2019-02-21</date><risdate>2019</risdate><volume>3</volume><issue>2</issue><spage>158</spage><epage>169</epage><pages>158-169</pages><issn>2472-3452</issn><eissn>2472-3452</eissn><abstract>By integrating organic synthesis, secondary organic aerosol synthesis and collection, density functional theory (DFT) calculations, and vibrational sum frequency generation (SFG) spectroscopy, we identify close spectral matches between the surface vibrational spectra of β-caryophyllene-derived secondary organic material (SOM) and those of β-caryophyllene aldehyde and β-caryophyllonic acid at various interfaces. Combined with the record high surface tension depression described previously for these same oxidation products, we discuss possibilities for an intrinsically chemical origin for cloud activation by terpene-derived surfactants. Although the present study does not unequivocally identify the synthesized and analyzed oxidation products on the β-caryophyllene-derived SOM surfaces, these two compounds appear to be the most surface active out of the series and have also been foci of previous β-caryophyllene field and laboratory studies. An orientation analysis by phase-resolved SFG spectroscopy reveals a “pincer-like” configuration of the β-caryophyllene oxidation products, albeit on a model quartz surface, that somewhat resembles the orientation of inverse double-tailed surfactants at the surfaces of biological systems. 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subjects	vibrational sum frequency generation spectroscopy, ß-caryophyllene ozonolysis, sesquiterpene chemistry, secondary organic material, phase-resolved SFG, Density functional theory calculations
title	Atmospheric β‑Caryophyllene-Derived Ozonolysis Products at Interfaces
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