Englhard J, Bachmann J (2023)
Publication Type: Journal article
Publication year: 2023
The reduction of CO2 in water can yield a variety of volatile products mixed with the starting material and often dinitrogen as an inert gas. While mass spectrometry is ideally suited to the quantitative analysis of gases in low concentrations, the simultaneous detection is usually performed with a preliminary chromatographic separation. In its absence, the mass spectrometric signal at m/z=28 can be due to CO, CO2, and N2. Here, we demonstrate that ionizing the mixture of reaction products under 16 eV results in the selective detection of CO at m/z=28, at the complete exclusion of CO2 and N2. This method is applicable to headspace analysis after a bulk electrolysis and delivers product compositions as they depend on catalyst and applied potential. Furthermore, its immediate nature also enables the experimentalist to perform, in real time, a direct monitoring of the reaction products generated during cyclic voltammetry.
APA:
Englhard, J., & Bachmann, J. (2023). Quantification of CO and Further CO2 Reduction Products by On‐line Mass Spectrometry. Chemistry Methods. https://doi.org/10.1002/cmtd.202300019
MLA:
Englhard, Jonas, and Julien Bachmann. "Quantification of CO and Further CO2 Reduction Products by On‐line Mass Spectrometry." Chemistry Methods (2023).
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