One‐step preparation and application of mussel‐inspired poly(norepinephrine)‐coated polydimethylsiloxane microchip for separation of chiral compounds

In this paper, using the self‐polymerization of norepinephrine (NE) and its favorable film‐forming property, a simple and green preparation approach was developed to modify a PDMS channel for enantioseparation of chiral compounds. After the PDMS microchip was filled with NE solution, poly(norepinephrine) (PNE) film was gradually formed and deposited on the inner wall of microchannel as permanent coating via the oxidation of NE by the oxygen dissolved in the solution. Due to possessing plentiful catechol and amine functional groups, the PNE‐coated PDMS microchip exhibited much better wettability, more stable and suppressed EOF, and less nonspecific adsorption. The water contact angle and EOF of PNE‐coated PDMS substrate were measured to be 13° and 1.68 × 10^?4 cm² V^?1 s^?1, compared to those of 108° and 2.24 × 10^?4 cm² V^?1 s^?1 from the untreated one, respectively. Different kinds of chiral compounds, such as amino acid enantiomer, drug enantiomer, and peptide enantiomer were efficiently separated utilizing a separation length of 37 mm coupled with in‐column amperometric detection on the PNE‐coated PDMS microchips. This facile mussel‐inspired PNE‐based microchip system exhibited strong recognition ability, high‐performance, admirable reproducibility, and stability, which may have potential use in the complex biological analysis.