Low temperature growth of sub 10 nm particles by ammonium nitrate condensation

Donahue, Neil M.; Xiao, Mao; Marten, Ruby; Wang, Mingyi; Kong, Weimeng; Schervish, Meredith; Ye, Qing; Hofbauer, Victoria; Dada, Lubna; Duplissy, Jonathan; Finkenzeller, Henning; Gordon, Hamish; Kirkby, Jasper; Lamkaddam, Houssni; Makhmutov, Vladimir; Philippov, Maxim; Rörup, Birte; Volkamer, Rainer; Wang, Dongyu; Weber, Stefan K.; Flagan, Richard C.; Stolzenburg, Dominik; El Hadad, Imad

doi:10.1039/D4EA00117F

DC Field

Value

Language

dc.contributor.author

Donahue, Neil M.

dc.contributor.author

Xiao, Mao

dc.contributor.author

Marten, Ruby

dc.contributor.author

Wang, Mingyi

dc.contributor.author

Kong, Weimeng

dc.contributor.author

Schervish, Meredith

dc.contributor.author

Ye, Qing

dc.contributor.author

Hofbauer, Victoria

dc.contributor.author

Dada, Lubna

dc.contributor.author

Duplissy, Jonathan

dc.contributor.author

Finkenzeller, Henning

dc.contributor.author

Gordon, Hamish

dc.contributor.author

Kirkby, Jasper

dc.contributor.author

Lamkaddam, Houssni

dc.contributor.author

Makhmutov, Vladimir

dc.contributor.author

Philippov, Maxim

dc.contributor.author

Rörup, Birte

dc.contributor.author

Volkamer, Rainer

dc.contributor.author

Wang, Dongyu

dc.contributor.author

Weber, Stefan K.

dc.contributor.author

Flagan, Richard C.

dc.contributor.author

Stolzenburg, Dominik

dc.contributor.author

El Hadad, Imad

dc.date.accessioned

2025-12-22T11:10:47Z

dc.date.available

2025-12-22T11:10:47Z

dc.date.issued

2025-01-01

dc.identifier.citation

<div class="csl-bib-body"> <div class="csl-entry">Donahue, N. M., Xiao, M., Marten, R., Wang, M., Kong, W., Schervish, M., Ye, Q., Hofbauer, V., Dada, L., Duplissy, J., Finkenzeller, H., Gordon, H., Kirkby, J., Lamkaddam, H., Makhmutov, V., Philippov, M., Rörup, B., Volkamer, R., Wang, D., … El Hadad, I. (2025). Low temperature growth of sub 10 nm particles by ammonium nitrate condensation. <i>Environmental Science: Atmospheres</i>, <i>5</i>(1), 67–81. https://doi.org/10.1039/D4EA00117F</div> </div>

dc.identifier.uri

http://hdl.handle.net/20.500.12708/222992

dc.description.abstract

Co-condensation of nitric acid and ammonia vapors to form ammonium nitrate transforms from a fully semi-volatile behavior when it is relatively warm (273 K and above, typical of the seasonal planetary boundary layer) into effectively non-volatile and irreversible uptake for the limiting vapor when it is cold (well below 273 K, typical of the upper troposphere and occasionally the wintertime boundary layer). This causes the system to switch in character from the one governed by semi-volatile equilibrium (how it is usually portrayed) to the one governed by irreversible reactive uptake to even the smallest particles. Uptake involves an activation diameter, which can be as small as 1 nm for typical vapor concentrations, and subsequent growth rates can be very high, exceeding 1000 nm h⁻¹. In addition to this somewhat surprising behavior, the system provides an exemplary case for semi-volatile reactive uptake within the context of volatility and saturation ratios.

dc.language.iso

dc.publisher

Royal Society of Chemistry

dc.relation.ispartof

Environmental Science: Atmospheres

dc.subject

Temperature-dependent volatility

dc.subject

Irreversible reactive uptake

dc.title

Low temperature growth of sub 10 nm particles by ammonium nitrate condensation

dc.type

Article

dc.type

Artikel

dc.identifier.scopus

2-s2.0-85209720679

dc.identifier.url

https://api.elsevier.com/content/abstract/scopus_id/85209720679

dc.contributor.affiliation

Carnegie Mellon University, United States of America (the)

dc.contributor.affiliation

Paul Scherrer Institute, Switzerland

dc.contributor.affiliation

Paul Scherrer Institute, Switzerland

dc.contributor.affiliation

University of Chicago, United States of America (the)

dc.contributor.affiliation

California Institute of Technology, United States of America (the)

dc.contributor.affiliation

University of California, Merced, United States of America (the)

dc.contributor.affiliation

Carnegie Mellon University, United States of America (the)

dc.contributor.affiliation

Carnegie Mellon University, United States of America (the)

dc.contributor.affiliation

Paul Scherrer Institute, Switzerland

dc.contributor.affiliation

University of Helsinki, Finland

dc.contributor.affiliation

University of Helsinki, Finland

dc.contributor.affiliation

Carnegie Mellon University, United States of America (the)

dc.contributor.affiliation

Goethe University Frankfurt, Germany

dc.contributor.affiliation

Paul Scherrer Institute, Switzerland

dc.contributor.affiliation

Russian Academy of Sciences, Russian Federation (the)

dc.contributor.affiliation

Russian Academy of Sciences, Russian Federation (the)

dc.contributor.affiliation

University of Helsinki, Finland

dc.contributor.affiliation

University of Colorado Colorado Springs, United States of America (the)

dc.contributor.affiliation

Paul Scherrer Institute, Switzerland

dc.contributor.affiliation

European Organization for Nuclear Research, Switzerland

dc.contributor.affiliation

California Institute of Technology, United States of America (the)

dc.contributor.affiliation

Paul Scherrer Institute, Switzerland

dc.description.startpage

dc.description.endpage

dc.type.category

Original Research Article

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true

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true

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International Co-publication

tuw.researchTopic.id

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Special and Engineering Materials

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Surfaces and Interfaces

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Biological and Bioactive Materials

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dcterms.isPartOf.title

Environmental Science: Atmospheres

tuw.publication.orgunit

E165-01-5 - Forschungsgruppe Physikalische Chemie von Aerosolpartikeln

tuw.publisher.doi

10.1039/D4EA00117F

dc.date.onlinefirst

2024-10-21

dc.identifier.eissn

2634-3606

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Chemie

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Publications

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research article

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Carnegie Mellon University

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Paul Scherrer Institute

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Paul Scherrer Institute

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University of Chicago

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California Institute of Technology

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Carnegie Mellon University

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Carnegie Mellon University

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Carnegie Mellon University

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Paul Scherrer Institute

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University of Helsinki

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University of Helsinki

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Carnegie Mellon University

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Goethe University Frankfurt

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Paul Scherrer Institute

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Russian Academy of Sciences

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Russian Academy of Sciences

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University of Helsinki

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University of Colorado Colorado Springs

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Paul Scherrer Institute

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Goethe University Frankfurt

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California Institute of Technology

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E165-01-5 - Forschungsgruppe Physikalische Chemie von Aerosolpartikeln

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Paul Scherrer Institute

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E165-01 - Forschungsbereich Physikalische Chemie

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