AI Article Synopsis
- A study investigates how racemic bis[1-phenylethyl]amine (PEA) can be effectively separated into its enantiomers using various molecularly imprinted polymers (MIPs) made with a chiral functional monomer.
- Different MIPs were created based on the pure enantiomers and racemic PEA, demonstrating their ability to resolve the racemate through chromatography techniques.
- The study analyzed the interactions between the polymers and PEA, revealing that enantioseparation relies on minor differences in binding stabilization of the resulting complexes on the polymer surfaces.
Article Abstract
A comprehensive study on the enantioseparation of racemic bis[1-phenylethyl]amine (PEA) on a series of molecularly imprinted polymers (MIPs) prepared using the chiral functional monomer (S)-2-(2-methyl-acryloylamino)-3-phenyl propionic acid (MAPP) is reported. MIP-R, MIP-S and MIP-RS, were synthesized separately by imprinting the pure enantiomers (R-, S-PEA) and racemic PEA, respectively, MAPP, EDGMA as crosslinker and chloroform as the porogen. It was found that all MIPs prepared were able to resolve the PEA racemate. Residence times (t(r)) and enantioselectivity factors (α) were estimated from typical elution chromatography experiments. Frontal chromatography experiments were conducted to acquire the adsorption isotherms for both enantiomers on the different MIPs (and on the non-imprinted polymer, NIP). The adsorption isotherms were analyzed using the affinity spectrum (AS) and the expectation-maximization (EM) methods. The study also involved the theoretical evaluation of the MAPP/enantiomers interactions in the pre-polymer mixture. The EM method predicts mono- and bimodal distribution of affinity binding sites depending upon the polymer analyzed. Apparently, the enantioseparation process depends on relatively small differences in the stabilization of the diasteroisomeric ion-pairs PEA/MAPP complexes on the surface of the polymers.
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| http://dx.doi.org/10.1016/j.chroma.2012.09.042 | DOI Listing |
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