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Main Authors: Bianco, Angelica, NIBERT, Pauline, Deguillaume, Laurent, Marinoni, Angela, Zanatta, Marco, Pailler, Lucas, NICOL, Edith, Olivier, Magand, Metzger, Jean-Marc
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.20408428
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author Bianco, Angelica
NIBERT, Pauline
Deguillaume, Laurent
Marinoni, Angela
Zanatta, Marco
Pailler, Lucas
NICOL, Edith
Olivier, Magand
Metzger, Jean-Marc
author_facet Bianco, Angelica
NIBERT, Pauline
Deguillaume, Laurent
Marinoni, Angela
Zanatta, Marco
Pailler, Lucas
NICOL, Edith
Olivier, Magand
Metzger, Jean-Marc
contents <p>The folder "dataset" contains three subfolders, named PUY, CMN and REU, containing themselves the subfolders corresponding to the cloud samples, identified by date. Each samples folder contains three CSV files (";" separator) corresponding to the three analytical replicates acquired with the FT-ICR MS. The first column reports the m/z and the second one the intensity of the signal (counts). </p> <p>FT-ICR MS acquisition was performed using the mass spectrometer FT-ICR solariX XR 9.4T (Bruker, Germany; part of the Infranalytics federation (CNRS FR2054) and located at Laboratoire de Chimie Moléculaire (LCM), Ecole Polytechnique de Massy Palaiseau, France). The instrument is equipped with an electrospray ionization operated in negative ion mode. A 2µL/h infusion flow rate is used to directly inject samples into the mass spectrometer and three analytical replicates are recorded accumulating 100 scans for each sample. Before and after each injection, the capillary is cleaned thrice with methanol. The needle voltage was set to 4.1kV. To achieve a stable ion current with the shortest ion injection time into the mass analyzer, parameters such as temperature vaporization, nebulizer gas pressure, and drying gas flow rate were adjusted as follow: 200°C, 1bar, 4L/min. The FT-ICR MS was calibrated every day prior to analysis with tunemix calibrant from Agilent. Spectra are treated with Bruker Data Analysis, extracting peaks with S/N > 7 and with internal recalibration using moleculare formula listed in Pailler et al. (2024). We kept into account for our research work only peaks > 100 Da. </p>
format Recurso digital
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institution Zenodo
language
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle FT-ICR MS data of cloud water samples from Puy de Dôme (France), Mt. Cimone (Italy) and Mt. Maïdo (reunion, France).
Bianco, Angelica
NIBERT, Pauline
Deguillaume, Laurent
Marinoni, Angela
Zanatta, Marco
Pailler, Lucas
NICOL, Edith
Olivier, Magand
Metzger, Jean-Marc
<p>The folder "dataset" contains three subfolders, named PUY, CMN and REU, containing themselves the subfolders corresponding to the cloud samples, identified by date. Each samples folder contains three CSV files (";" separator) corresponding to the three analytical replicates acquired with the FT-ICR MS. The first column reports the m/z and the second one the intensity of the signal (counts). </p> <p>FT-ICR MS acquisition was performed using the mass spectrometer FT-ICR solariX XR 9.4T (Bruker, Germany; part of the Infranalytics federation (CNRS FR2054) and located at Laboratoire de Chimie Moléculaire (LCM), Ecole Polytechnique de Massy Palaiseau, France). The instrument is equipped with an electrospray ionization operated in negative ion mode. A 2µL/h infusion flow rate is used to directly inject samples into the mass spectrometer and three analytical replicates are recorded accumulating 100 scans for each sample. Before and after each injection, the capillary is cleaned thrice with methanol. The needle voltage was set to 4.1kV. To achieve a stable ion current with the shortest ion injection time into the mass analyzer, parameters such as temperature vaporization, nebulizer gas pressure, and drying gas flow rate were adjusted as follow: 200°C, 1bar, 4L/min. The FT-ICR MS was calibrated every day prior to analysis with tunemix calibrant from Agilent. Spectra are treated with Bruker Data Analysis, extracting peaks with S/N > 7 and with internal recalibration using moleculare formula listed in Pailler et al. (2024). We kept into account for our research work only peaks > 100 Da. </p>
title FT-ICR MS data of cloud water samples from Puy de Dôme (France), Mt. Cimone (Italy) and Mt. Maïdo (reunion, France).
url https://doi.org/10.5281/zenodo.20408428