A density functional study on water-sulfuric acid-ammonia clusters and implications for atmospheric cluster formation

Theo Kurtén; Leena Torpo; Chang Geng Ding; Hanna Vehkamäki; Markku R. Sundberg; Kari Laasonen; Markku Kulmala

doi:10.1029/2006JD007391

A density functional study on water-sulfuric acid-ammonia clusters and implications for atmospheric cluster formation

Theo Kurtén^*, Leena Torpo, Chang Geng Ding, Hanna Vehkamäki, Markku R. Sundberg, Kari Laasonen, Markku Kulmala

^*Corresponding author for this work

Not published at Aalto University

Research output: Contribution to journal › Article › Scientific › peer-review

113 Citations (Scopus)

Abstract

We present results for the electronic and atomic structures of different size molecular clusters containing sulfuric acid, water, and ammonia molecules. The electronic structure calculations are performed using the DMol³ quantum chemical program packages and the PW91 density functional. We report implications of our results for atmospheric cluster size distributions. Our calculations indicate that ammonia is bonded to the cluster structures much more strongly than water. The presence of ammonia also strengthens the binding of sulfuric acid molecules to the clusters, and significantly increases the formation of clusters containing two sulfuric acid molecules and 0-2 water molecules. However, owing to the low overall concentration of two-acid clusters, the fraction of ammonia-containing clusters in the calculated atmospheric cluster size distribution was still very low.

Original language	English
Article number	D04210
Number of pages	7
Journal	Journal of Geophysical Research
Volume	112
Issue number	D4
DOIs	https://doi.org/10.1029/2006JD007391
Publication status	Published - 27 Feb 2007
MoE publication type	A1 Journal article-refereed

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title = "A density functional study on water-sulfuric acid-ammonia clusters and implications for atmospheric cluster formation",

abstract = "We present results for the electronic and atomic structures of different size molecular clusters containing sulfuric acid, water, and ammonia molecules. The electronic structure calculations are performed using the DMol3 quantum chemical program packages and the PW91 density functional. We report implications of our results for atmospheric cluster size distributions. Our calculations indicate that ammonia is bonded to the cluster structures much more strongly than water. The presence of ammonia also strengthens the binding of sulfuric acid molecules to the clusters, and significantly increases the formation of clusters containing two sulfuric acid molecules and 0-2 water molecules. However, owing to the low overall concentration of two-acid clusters, the fraction of ammonia-containing clusters in the calculated atmospheric cluster size distribution was still very low.",

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AU - Kurtén, Theo

AU - Torpo, Leena

AU - Ding, Chang Geng

AU - Vehkamäki, Hanna

AU - Sundberg, Markku R.

AU - Laasonen, Kari

AU - Kulmala, Markku

PY - 2007/2/27

Y1 - 2007/2/27

N2 - We present results for the electronic and atomic structures of different size molecular clusters containing sulfuric acid, water, and ammonia molecules. The electronic structure calculations are performed using the DMol3 quantum chemical program packages and the PW91 density functional. We report implications of our results for atmospheric cluster size distributions. Our calculations indicate that ammonia is bonded to the cluster structures much more strongly than water. The presence of ammonia also strengthens the binding of sulfuric acid molecules to the clusters, and significantly increases the formation of clusters containing two sulfuric acid molecules and 0-2 water molecules. However, owing to the low overall concentration of two-acid clusters, the fraction of ammonia-containing clusters in the calculated atmospheric cluster size distribution was still very low.

AB - We present results for the electronic and atomic structures of different size molecular clusters containing sulfuric acid, water, and ammonia molecules. The electronic structure calculations are performed using the DMol3 quantum chemical program packages and the PW91 density functional. We report implications of our results for atmospheric cluster size distributions. Our calculations indicate that ammonia is bonded to the cluster structures much more strongly than water. The presence of ammonia also strengthens the binding of sulfuric acid molecules to the clusters, and significantly increases the formation of clusters containing two sulfuric acid molecules and 0-2 water molecules. However, owing to the low overall concentration of two-acid clusters, the fraction of ammonia-containing clusters in the calculated atmospheric cluster size distribution was still very low.

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JO - Journal of Geophysical Research

JF - Journal of Geophysical Research

IS - D4

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A density functional study on water-sulfuric acid-ammonia clusters and implications for atmospheric cluster formation

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