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ASCOS Pre-Expedition Workshop

Contributing Efforts to ASCOS using the Proton Transfer Reaction Technique for VOC Analysis. M. Müller , M. Graus, A. Wisthaler , A. Hansel Institute of Ion Physics and Applied Physics, University of Innsbruck , Austria. ASCOS Pre-Expedition Workshop. PTR-MS:.

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ASCOS Pre-Expedition Workshop

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  1. Contributing Efforts to ASCOS using the Proton Transfer Reaction Technique for VOC Analysis M. Müller, M. Graus, A. Wisthaler, A. Hansel Institute of Ion Physics and Applied Physics, University of Innsbruck, Austria ASCOS Pre-Expedition Workshop

  2. PTR-MS: Reaction: H3O+ + VOC → VOCH+ + H2O Proton transfer reaction when PA(VOC)>PA(H2O) H3O+ H3O+ H3O+ H3O+ H2O+ O+ H+ OH+ H3O+ H3O+ VOC•H+ e– H3O+ H2O VOC ASCOS Pre-Expedition Workshop

  3. What do we detect: • Most hydro carbons and derivates • Terpenes • Aromatics • Photo oxidation products and other oxyVOCs • Ketones • Aldehydes • Alcohols • Aerosol precursors • DMS and oxidation products (DMSO) • High molecular species (semi volatile) ASCOS Pre-Expedition Workshop

  4. Performance Summary PTR-MS: • Advantages: • Compact organic trace gas analyser • Mostly non dissociative ionization • Excellent sensitivity • Low limit of detection ~10 pptv • Disadvantage: • Poor selectivity ASCOS Pre-Expedition Workshop

  5. PTR Drift Tube TOF-MS Pulser Detector Signal Sample Inlet Time of Flight HR PTR-TOFMS: M. Graus, M. Müller, A. Wisthaler, A. Hansel Acquisition Timing ASCOS Pre-Expedition Workshop

  6. Performance Summary HR PTR-TOFMS: • Detects all ions in one instant • Separation of isobars is possible • Identification of the elemental composition • High sensitivity • Low pptv range LOD m/z=79.022 m/z=79.055 ASCOS Pre-Expedition Workshop

  7. Planed Innsbruck’s contributions to ASCOS: VOC air mass characterization Continuous measurements Aerosol collection (5 stage BCI) and analysis for organic compounds Heli profiles of VOCs Off-line thermal desorption analysis 6-8 SilcoCanoff-line sampling technique • HLC-Setup • Molekular mass • HLC for identification • quantitativ • Analysis of solved VOCs in sea water: • Surface µ-layer samples • Surface layer samples

  8. Why off-line heli profiles using 6-8 SilcoCans? Lets look at some AOE 2001 data! EGU General Assembly 2008

  9. AOE Results by Armin Wisthaler: Expected SilcoCan Data EGU General Assembly 2008

  10. AOE Results by Armin Wisthaler: Expected SilcoCan Data Very low DMS concentration => high signal/noise • High precision data • low signal/noise • Whole mass scans possible • Isobaric identification possible (TOF) EGU General Assembly 2008

  11. THANK YOU EGU General Assembly 2008

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