Thorwirth, S.; Steenbakkers, K.; Danowski, T.; Schmid, P.C.; Bonah, L.; Asvany, O.; Brünken, S.; Schlemmer, S.
Gas-Phase Infrared Action Spectroscopy of CH2Cl+ and CH3ClH+: Likely Protagonists in Chlorine Astrochemistry. Molecules 2024, 29, 665.
https://doi.org/10.3390/molecules29030665
AMA Style
Thorwirth S, Steenbakkers K, Danowski T, Schmid PC, Bonah L, Asvany O, Brünken S, Schlemmer S.
Gas-Phase Infrared Action Spectroscopy of CH2Cl+ and CH3ClH+: Likely Protagonists in Chlorine Astrochemistry. Molecules. 2024; 29(3):665.
https://doi.org/10.3390/molecules29030665
Chicago/Turabian Style
Thorwirth, Sven, Kim Steenbakkers, Timon Danowski, Philipp C. Schmid, Luis Bonah, Oskar Asvany, Sandra Brünken, and Stephan Schlemmer.
2024. "Gas-Phase Infrared Action Spectroscopy of CH2Cl+ and CH3ClH+: Likely Protagonists in Chlorine Astrochemistry" Molecules 29, no. 3: 665.
https://doi.org/10.3390/molecules29030665
APA Style
Thorwirth, S., Steenbakkers, K., Danowski, T., Schmid, P. C., Bonah, L., Asvany, O., Brünken, S., & Schlemmer, S.
(2024). Gas-Phase Infrared Action Spectroscopy of CH2Cl+ and CH3ClH+: Likely Protagonists in Chlorine Astrochemistry. Molecules, 29(3), 665.
https://doi.org/10.3390/molecules29030665
