Synthesis of Molecularly Imprinted Polymer via Emulsion Polymerization for Application in Solanesol Separation

High-purity solanesol can be used for pharmaceutical applications, but the current method for purifying solanesol has high cost and difficult continuous operation, and the use of molecular imprinting to purify natural products is a hot research topic of current research. Solanesol molecularly imprin...

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Published in	Applied sciences Vol. 10; no. 8; p. 2868
Main Authors	Zhao, Guojie, Liu, Jing, Liu, Minghong, Han, Xiaobin, Peng, Yulong, Tian, Xiatian, Liu, Jialei, Zhang, Shaofeng
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.04.2020
Subjects	Adsorption Chromatography Emulsion polymerization Fourier transforms Free radicals Medical research Membrane separation molecular imprinting Particle size Polymers solanesol Vacuum distillation Beijing China United States > US China
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Abstract	High-purity solanesol can be used for pharmaceutical applications, but the current method for purifying solanesol has high cost and difficult continuous operation, and the use of molecular imprinting to purify natural products is a hot research topic of current research. Solanesol molecularly imprinted polymers were synthesized via emulsion polymerization for the first time. The morphology of the SSO-MIPs was observed with a scanning electron microscope, and the effects of the synthesis time, initiator dosage, functional monomer dosage, and cross-linking agent dosage on the adsorption effects under high-temperature and rapid synthesis conditions were discussed. The results demonstrate that the optimum synthesis conditions were a ratio of the template molecules to the functional monomers to the cross-linking agents of 1:8:30 (mol:mol:mol), 10 mg of the initiator, and a synthesis temperature of 70 °C. The imprinting factor of SSO-MIPs synthesized under the optimized process was found to reach 2.51, and the SSO-MIPs synthesized by this method exhibited a good adsorption effect, emitted less pollution during the synthesis process, and are convenient for demulsification. This research reports a reliable method for the synthesis of solanesol molecularly imprinted polymers.
AbstractList	High-purity solanesol can be used for pharmaceutical applications, but the current method for purifying solanesol has high cost and difficult continuous operation, and the use of molecular imprinting to purify natural products is a hot research topic of current research. Solanesol molecularly imprinted polymers were synthesized via emulsion polymerization for the first time. The morphology of the SSO-MIPs was observed with a scanning electron microscope, and the effects of the synthesis time, initiator dosage, functional monomer dosage, and cross-linking agent dosage on the adsorption effects under high-temperature and rapid synthesis conditions were discussed. The results demonstrate that the optimum synthesis conditions were a ratio of the template molecules to the functional monomers to the cross-linking agents of 1:8:30 (mol:mol:mol), 10 mg of the initiator, and a synthesis temperature of 70 °C. The imprinting factor of SSO-MIPs synthesized under the optimized process was found to reach 2.51, and the SSO-MIPs synthesized by this method exhibited a good adsorption effect, emitted less pollution during the synthesis process, and are convenient for demulsification. This research reports a reliable method for the synthesis of solanesol molecularly imprinted polymers.
Author	Zhao, Guojie Liu, Minghong Liu, Jing Tian, Xiatian Liu, Jialei Peng, Yulong Han, Xiaobin Zhang, Shaofeng
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SubjectTerms	Adsorption Chromatography Emulsion polymerization Fourier transforms Free radicals Medical research Membrane separation molecular imprinting Particle size Polymers solanesol Vacuum distillation
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Title	Synthesis of Molecularly Imprinted Polymer via Emulsion Polymerization for Application in Solanesol Separation
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