LIVIVO - The Search Portal for Life Sciences

zur deutschen Oberfläche wechseln
Advanced search

Search results

Result 1 - 10 of total 19

Search options

  1. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles.

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Riccobono, Francesco / Sipilä, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, João / Amorim, Antonio / Bianchi, Federico /
    Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J / Dunne, Eimear M / Flagan, Richard C / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P / Ruuskanen, Taina / Santos, Filipe D / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E / Wagner, Paul E / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M / Virtanen, Annele / Donahue, Neil M / Carslaw, Kenneth S / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R / Kulmala, Markku

    Nature communications

    2016  Volume 7, Page(s) 11594

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.
    Language English
    Publishing date 2016-05-20
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 2553671-0
    ISSN 2041-1723 ; 2041-1723
    ISSN (online) 2041-1723
    ISSN 2041-1723
    DOI 10.1038/ncomms11594
    Database MEDical Literature Analysis and Retrieval System OnLINE

    More links

    Kategorien

    Order via subito

    This service is chargeable due to the Delivery terms set by subito. Orders including an article and supplementary material will be classified as separate orders. In these cases, fees will be demanded for each order.

  2. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  3. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  4. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  5. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  6. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  7. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  8. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  9. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  10. Article ; Online: The effect of acid-base clustering and ions on the growth of atmospheric nano-particles

    Lehtipalo, Katrianne / Rondo, Linda / Kontkanen, Jenni / Schobesberger, Siegfried / Jokinen, Tuija / Sarnela, Nina / Kürten, Andreas / Ehrhart, Sebastian / Franchin, Alessandro / Nieminen, Tuomo / Kulmala, Markku / Riccobono, Francesco / Sipila, Mikko / Yli-Juuti, Taina / Duplissy, Jonathan / Adamov, Alexey / Ahlm, Lars / Almeida, Joa˜o / Amorim, Antonio /
    Bianchi, Federico / Breitenlechner, Martin / Dommen, Josef / Downard, Andrew J. / Dunne, Eimear M. / Flagan, Richard C. / Guida, Roberto / Hakala, Jani / Hansel, Armin / Jud, Werner / Kangasluoma, Juha / Kerminen, Veli-Matti / Keskinen, Helmi / Kim, Jaeseok / Kirkby, Jasper / Kupc, Agnieszka / Kupiainen-Määttä, Oona / Laaksonen, Ari / Lawler, Michael J. / Leiminger, Markus / Mathot, Serge / Olenius, Tinja / Ortega, Ismael K. / Onnela, Antti / Petäjä, Tuukka / Praplan, Arnaud / Rissanen, Matti P. / Ruuskanen, Taina / Santos, Filipe D. / Schallhart, Simon / Schnitzhofer, Ralf / Simon, Mario / Smith, James N. / Tröstl, Jasmin / Tsagkogeorgas, Georgios / Tomé, António / Vaattovaara, Petri / Vehkamäki, Hanna / Vrtala, Aron E. / Wagner, Paul E. / Williamson, Christina / Wimmer, Daniela / Winkler, Paul M. / Virtanen, Annele / Donahue, Neil M. / Carslaw, Kenneth S. / Baltensperger, Urs / Riipinen, Ilona / Curtius, Joachim / Worsnop, Douglas R.

    Nature Communications, Volume 7

    2016  

    Abstract: The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound ... ...

    Abstract The growth of freshly formed aerosol particles can be the bottleneck in their survival to cloud condensation nuclei. It is therefore crucial to understand how particles grow in the atmosphere. Insufficient experimental data has impeded a profound understanding of nano-particle growth under atmospheric conditions. Here we study nano-particle growth in the CLOUD (Cosmics Leaving OUtdoors Droplets) chamber, starting from the formation of molecular clusters. We present measured growth rates at sub-3 nm sizes with different atmospherically relevant concentrations of sulphuric acid, water, ammonia and dimethylamine. We find that atmospheric ions and small acid-base clusters, which are not generally accounted for in the measurement of sulphuric acid vapour, can participate in the growth process, leading to enhanced growth rates. The availability of compounds capable of stabilizing sulphuric acid clusters governs the magnitude of these effects and thus the exact growth mechanism. We bring these observations into a coherent framework and discuss their significance in the atmosphere.

    publishedVersion
    Keywords Atmospheric chemistry ; Physical chemistry ; 550
    Subject code 540
    Language English
    Publisher London : Nature Publishing Group
    Publishing country de
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

    More links

    Kategorien

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

To top