A near-infrared fluorescence capillary imprinted sensor for chiral recognition and sensitive detection of L-histidine

This work firstly developed a near-infrared fluorescence capillary imprinted sensor with high selectivity and sensitivity for the chiral recognition of L-histidine. The near-infrared fluorescence imprinted polymer prepared by sol-gel method using CdTe quantum dots as the near-infrared fluorescence source was self sucked into activated capillary to form the fluorescence imprinted capillary. The fluorescence imprinted capillary sensor had higher fluorescence response efficiency. With the superior stability, reproducibility and reusability, the fluorescence capillary imprinted sensor displayed higher selectivity toward L-histidine. Under the optimal conditions, the fluorescence intensity (lambda ex = 370 nm, lambda em = 695 nm) of the fluorescence capillary imprinted sensor was enhanced in proportion to L-histidine concentration ranged from 0.1 pM to 1.8 pM with a limit of detection of 0.08 pM. Spiking experiment showed that the fluorescence capillary imprinted sensor was successfully used for determination of L-histidine in human urine and serum with the recoveries of 99.6-102.7%. The near-infrared fluorescence capillary imprinted sensor possessed significantly potential for high sensitive detection of L-histidine, which realized trace level analysis for micro-volume sample and provided promising utility for green chemical. (C) 2022 Elsevier B.V. All rights reserved.

Automated summary

This study developed a near-infrared fluorescence capillary imprinted sensor with high selectivity and sensitivity for chiral recognition of L-histidine. The sensor exhibited superior stability, reproducibility, and reusability, displaying high selectivity towards L-histidine in micro-volume samples.