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IR-MALDI ion mobility spectrometry: physical source characterization and application as HPLC detector

  • Infrared matrix-assisted laser dispersion and ionization (IR-MALDI) in combination with ion mobility (IM) spectrometry enables the direct analysis of biomolecules in aqueous solution. The release of ions directly from an aqueous solution is based on a phase explosion, induced by the absorption of an IR laser pulse, which disperses the liquid as vapor, nano-and micro-droplets. The ionization process is characterized initially by a broad spatial distribution of the ions, which is a result of complex fluid dynamics and desolvation kinetics. These processes have a profound effect on the shape and width of the peaks in the IM spectra. In this work, the transport of ions by the phase explosion-induced shockwave could be studied independently from the transport by the electric field. The shockwave-induced mean velocities of the ions at different time scales were determined through IM spectrometry and shadowgraphy. The results show a deceleration of the ions from 118 m.s(-1) at a distance of 400 mu m from the liquid surface to 7.1 m.s(-1) atInfrared matrix-assisted laser dispersion and ionization (IR-MALDI) in combination with ion mobility (IM) spectrometry enables the direct analysis of biomolecules in aqueous solution. The release of ions directly from an aqueous solution is based on a phase explosion, induced by the absorption of an IR laser pulse, which disperses the liquid as vapor, nano-and micro-droplets. The ionization process is characterized initially by a broad spatial distribution of the ions, which is a result of complex fluid dynamics and desolvation kinetics. These processes have a profound effect on the shape and width of the peaks in the IM spectra. In this work, the transport of ions by the phase explosion-induced shockwave could be studied independently from the transport by the electric field. The shockwave-induced mean velocities of the ions at different time scales were determined through IM spectrometry and shadowgraphy. The results show a deceleration of the ions from 118 m.s(-1) at a distance of 400 mu m from the liquid surface to 7.1 m.s(-1) at a distance of 10 mm, which is caused by a pile-up effect. Furthermore, the desolvation kinetics were investigated and a first-order desolvation constant of 325 +/- 50 s(-1) was obtained. In the second part, the IR-MALDI-IM spectrometer is used as an HPLC detector for the two-dimensional separation of a pesticide mixture.show moreshow less

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Metadaten
Author details:José Andrés VillatoroORCiDGND, Martin ZühlkeGND, Daniel RiebeORCiDGND, Toralf BeitzORCiD, Marcus Weber, Jens Riedel, Hans-Gerd LöhmannsröbenORCiDGND
DOI:https://doi.org/10.1007/s12127-016-0208-1
ISSN:1435-6163
ISSN:1865-4584
Title of parent work (English):International journal for ion mobility spectrometry : official publication of the International Society for Ion Mobility Spectrometry
Publisher:Springer
Place of publishing:Heidelberg
Publication type:Article
Language:English
Year of first publication:2016
Publication year:2016
Release date:2020/03/22
Tag:HPLC; IR-MALDI; Imaging; Ion mobility spectrometry; Laser; Shadowgraphy
Volume:19
Number of pages:11
First page:197
Last Page:207
Funding institution:German Excellence Initiative (DFG - Deutsche Forschungsgemeinschaft); School of Analytical Sciences Adlershof (SALSA); Bundesanstalt fur Materialforschung und-prufung (BAM)
Organizational units:Mathematisch-Naturwissenschaftliche Fakultät / Institut für Chemie
Peer review:Referiert
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