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Study on the Selectivity of Molecular Imprinting Materials Determined through Hydrogen Bonding on Template Molecular Structures of Flavonoids

Shun Guan, Yue Wang, Ting Hu, Lingling Che, Xiaoqiao Wang, Yike Huang, Zhining Xia

2024Molecules11 citationsDOIOpen Access PDF

Abstract

Molecular imprinting technology is widely used for the specific identification of compounds, but the selective recognition mechanisms of the same compounds still need to be further studied. Based on differences in hydrogen bond size and orientation, molecularly imprinted polymers (MIPs) were designed to adsorb flavonols with the same parent core and different hydroxyl groups. A surface-imprinted material was designed with silicon dioxide as the carrier, myricetin as the template molecule, and methacrylic acid (MAA) as the functional monomer. Scanning electron microscopy (SEM), Brunauer–Emmett–Teller surface area (BET) analyses, Fourier-transform infrared spectroscopy (FT-IR), and other characterization experiments were carried out. The intrinsic mechanism of the MIPs was also explored. The MIPs showed good adsorption of myricetin and other flavonoids through hydrogen bonding and steric hindrance. The adsorption capacity was 3.12–9.04 mg/g, and the imprinting factor was 1.78–3.37. Flavonoids with different hydroxyl groups in different numbers and directions had different hydrogen bond strengths with functional monomers. R2, R4, and R1 on 2-phenylchromogenone had stronger electronegativity, and the hydroxyl group was also more likely to form and have stronger hydrogen bonds. The hydroxyl negativity and the degree of steric hindrance of flavonoids played a major role in the recognition of molecularly imprinted materials. This study is of great significance for the synthesis of and selection of templates for analogous molecular imprinting materials.

Topics & Concepts

Hydrogen bondMolecular imprintingChemistryMolecularly imprinted polymerSteric effectsMethacrylic acidAdsorptionFourier transform infrared spectroscopySelective adsorptionMyricetinKaempferolPolymerMoleculeMonomerOrganic chemistrySelectivityChemical engineeringCatalysisQuercetinEngineeringAntioxidantAnalytical chemistry methods developmentAnalytical Chemistry and ChromatographyMolecular Sensors and Ion Detection