A Practical High-throughput Screening System for Enantioselectivity by Using FTIR Spectroscopy
Affiliations
For the first time FTIR spectroscopy has been applied to the measurement of enantiomeric purity. The underlying concept is based on the use of pseudo-enantiomers that are (13)C-labeled at appropriate positions. Upon applying Lambert-Beer's law in the determination of the concentrations of both enantiomers, the ee values are accessible, accuracy to within +/-5 % of the true values being possible. The application of a commercially available high-throughput FTIR system results in a slightly decreased accuracy (+/-7% for the ee values), but this allows a throughput of up to 10000 samples per day. The method is of interest in the area of combinatorial symmetric catalysis and directed evolution of enantioselective enzymes.
Formen J, Nelson E, Wolf C J Org Chem. 2025; 90(2):994-1000.
PMID: 39745140 PMC: 11744787. DOI: 10.1021/acs.joc.4c02055.
Optical Enantiodifferentiation of Chiral Nitriles.
Formen J, Wolf C Org Lett. 2024; 26(36):7644-7649.
PMID: 39229874 PMC: 11406584. DOI: 10.1021/acs.orglett.4c02758.
Chemometric sensing of stereoisomeric compound mixtures with a redox-responsive optical probe.
Formen J, Hassan D, Wolf C Chem Sci. 2024; 15(4):1498-1504.
PMID: 38274061 PMC: 10806675. DOI: 10.1039/d3sc05706b.
Nelson E, Formen J, Wolf C Chem Sci. 2021; 12(25):8784-8790.
PMID: 34257878 PMC: 8246279. DOI: 10.1039/d1sc02061g.
Liu W, Fei M, Ban Y, Jia A, Qiu R Polymers (Basel). 2019; 9(10).
PMID: 30965845 PMC: 6418966. DOI: 10.3390/polym9100541.