Synthesizing molecularly imprinted polymer beads for the purification of vitamin E_中国颗粒学会

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Partic. vol. 57 pp. 10-18 (August 2021)
doi: 10.1016/j.partic.2020.12.009

Synthesizing molecularly imprinted polymer beads for the purification of vitamin E

Youhong Zhanga,b.*, Yinpei Zhua,b, Leslie S. Looc, Jianguo Yind, Kean Wange,*

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kean.wang@ku.ac.ae

Highlights

    • Molecularly imprinted polymers were obtained from MAA on a PS substrate. • This material showed a high vitamin E adsorption capacity of 46 mg/g. • Superior performance to non-imprinted polymers was obtained. • Comparable performance to precipitation polymerization materials was obtained. • This material provides facile elution and can be regenerated.

Abstract

Molecularly imprinted polymer (MIP) beads imprinted with vitamin E (VE) were synthesized via a two-step swelling polymerization method, using methacrylic acid (MAA) and other functional monomers together with polystyrene (PS) microspheres as the substrate. In initial trials, different functional monomers were assessed, along with a variety of solvents and imprinting ratios. The MIPMAA sample exhibited the highest performance and was characterized and also assessed with regard to VE adsorption under various experimental conditions. This material exhibited reasonably good sphericity, porosity and stability, along with an excellent adsorption capacity of 46 mg/g. This was much higher than the value for the corresponding non-imprinted polymer made with the same monomer, and 20% higher than that for an acrylamide-based MIP synthesized using a precipitation polymerization method. The core-shell structured MIPMAA also demonstrated fast adsorption kinetics, a low pressure drop and good reusability in fixed bed experiments. The VE adsorption equilibrium, selectivity, kinetics, thermodynamics and regeneration capacity of this material were also examined and are reported herein.

Graphical abstract

Keywords

Vitamin E; α-Tocopherol; MIP; Molecularly imprinting; Adsorption; Separation



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