Kalarikkal, Malavika G.Drechsler, ChristophTusha, GersSchäfer, Lars V.Van Craen, David2024-11-192024-11-192023-07-30http://hdl.handle.net/2003/4276610.17877/DE290R-24598Chirality analysis of small molecules for the determination of their enantiopurity is nowadays ruled by streamlined chromatographic methods which utilize chiral stationary phases. Chiroptical probes which rely on host–guest interactions are so far overshadowed by the latter but have the benefit of depending only on common spectroscopic techniques such as CD spectroscopy to distinguish enantiomers and to quantify their ratio. Interest into this receptor-based approach is constantly rising because non-invasive high-throughput screenings with a minimal waste production can be performed. In this study we investigate the possibility to utilize metal-based containers in form of charge-neutral helicates able to recognize anions for this purpose. Key building block of the helicates are triazole units which show rotational freedom and give rise to either a meso-structure or a racemic mixture of the right- and left-handed complex. A chiroptical response of the probe is observed upon recognition of chiral mono- or dicarboxylates and chirality analysis of tartrate is conducted by CD spectroscopy.enChemistry - a European journal; 29(61)https://creativecommons.org/licenses/by/4.0/charge-neutral helicateschiroptical recognitionchiral anionschirality analysismetal-based containers540Chiroptical recognition of carboxylates with charge‐neutral double‐stranded zinc(II) helicatesResearchArticle