Pulsed Blue Laser Diode Thermal Desorption Microplasma Imag-ing Mass Spectrometry

11 October 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

An ambient air laser desorption, plasma ionization imaging method is developed and presented using a pulsed laser diode for desorption and the flexible microtube plasma for ionization of the neutral desorbate. Inherent parameters such as the laser pulse frequency and pulse width are optimized to the imaging application. For the desorption substrate, copper spots on a copper-glass sandwich structure are used. This novel design enables imaging without ablating the metal into the mass spectrometer. On this substrate, fixed calibration markers are used to decrease the positioning error in the imaging process, featuring a 3D offset correction within the experiment. The image is both screened spot-by-spot and per line scanning at a constant speed, which allows direct comparison. In spot-by-spot scanning, a novel algorithm is presented to unfold and to reconstruct the imaging data. This approach significantly decreases the time required for the imaging process, which allows imaging even at decreased sampling rates and thus higher mass resolution. After the experiment, the raw data is automatically converted and interpreted by a second algorithm, which allows direct visualization of the image from the data, even on low-intensity signals. Mouse liver microtome cuts have been screened for dehydrated cholesterol, proving good agreement of the unfolded data with the morphology of the tissue. The method optically resolves 30 µm, with 30 µm diameter copper spots and a 10 µm gap. No conventional chemical matrices or vacuum conditions are required.

Keywords

Laser Diode Thermal Desorption
Microplasma
Imaging
Mass Spectrometry
Flexible Microtube Plasma

Supplementary materials

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Title
Supporting Information of Pulsed Blue Laser Diode Thermal Desorption Microplasma Imaging Mass Spectrometry
Description
Additional information on the manuscript with the title "Pulsed Blue Laser Diode Thermal Desorption Microplasma Imaging Mass Spectrometry". It contains data on the used software, laser diode properties, recipes for H&E stains and thermal confinement on the desorption substrate
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