Gas chromatograph based on MEMS technology for in situ space exploration to detect organic molecules of interest for astrobiology in planetary environments

Cyril Szopa; Malak Rizk-Bigourd; Pascal Cardinael; Audrey Boco-Simon; Vivien Tranier; Gabin Bergerot; Valerie Pelon-Agasse; Arnaud Buch; David Coscia; Vincent Guerrini; Fabrice Bertrand; Frederic Ferreira

doi:https://doi.org/10.5194/epsc-dps2025-1743

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EPSC Abstracts

Vol. 18, EPSC-DPS2025-1743, 2025, updated on 09 Jul 2025

https://doi.org/10.5194/epsc-dps2025-1743

EPSC-DPS Joint Meeting 2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

Gas chromatograph based on MEMS technology for in situ space exploration to detect organic molecules of interest for astrobiology in planetary environments

Cyril Szopa

¹, Malak Rizk-Bigourd¹, Pascal Cardinael², Audrey Boco-Simon¹, Vivien Tranier¹, Gabin Bergerot², Valerie Pelon-Agasse², Arnaud Buch³, David Coscia¹, Vincent Guerrini¹, Fabrice Bertrand¹, and Frederic Ferreira¹

Cyril Szopa et al.

¹University of Versailles Saint Quentin, LATMOS, Guyancourt, France (cyril.szopa@latmos.ipsl.fr)
²SMS, Normandie Univ, UNI ROUEN, Rouen, France
³LPGM, CentraleSupelec, Gif sur Yvette, France

How to cite: Szopa, C., Rizk-Bigourd, M., Cardinael, P., Boco-Simon, A., Tranier, V., Bergerot, G., Pelon-Agasse, V., Buch, A., Coscia, D., Guerrini, V., Bertrand, F., and Ferreira, F.: Gas chromatograph based on MEMS technology for in situ space exploration to detect organic molecules of interest for astrobiology in planetary environments, EPSC-DPS Joint Meeting 2025, Helsinki, Finland, 7–12 Sep 2025, EPSC-DPS2025-1743, https://doi.org/10.5194/epsc-dps2025-1743, 2025.

This abstract has been withdrawn on 18 Sep 2025.