NDLI: Preparation of photonic-magnetic responsive molecularly imprinted microspheres and their application to fast and selective extraction of 17ß-estradiol.

Content Provider	World Health Organization (WHO)-Global Index Medicus
Author	Ning, Fangjian Xiong, Hua Peng, Hailong Yu, Ningxiang Chen, Lingxin Li, Jinhua Fan, Jieping Zeng, Zheling Luo, Mei
Description	Country affiliation: China Author Affiliation: Peng H ( School of Resources, Environmental, and Chemical Engineering, Nanchang University, Nanchang 330031, China); Luo M ( School of Resources, Environmental, and Chemical Engineering, Nanchang University, Nanchang 330031, China); Xiong H ( State Key Laboratory of Food Science and Technology, Nanchang University, Nanchang 330047, China. Electronic address: huaxiong100@126.com.); Yu N ( State Key Laboratory of Food Science and Technology, Nanchang University, Nanchang 330047, China.); Ning F ( State Key Laboratory of Food Science and Technology, Nanchang University, Nanchang 330047, China.); Fan J ( School of Resources, Environmental, and Chemical Engineering, Nanchang University, Nanchang 330031, China.); Zeng Z ( School of Resources, Environmental, and Chemical Engineering, Nanchang University, Nanchang 330031, China.); Li J ( Key Laboratory of Coastal Environmental Processes and Ecological Remediation, Yantai Institute of Coastal Zone Research, Chinese Academy of Sciences, Yantai 264003, China.); Chen L ( Key Laboratory of Coastal Environmental Processes and Ecological Remediation, Yantai Institute of Coastal Zone Research, Chinese Academy of Sciences, Yantai 264003, China. Electronic address: lxchen@yic.ac.cn.)
Abstract	Photonic-magnetic responsive molecularly imprinted microspheres (PM-MIMs) were prepared by seed polymerization, through suitable functionalization of magnetic nanoparticles for further coating with photoresponsive functional monomer and imprinted layers, and then were successfully applied to the fast and selective extraction of 17ß-estradiol (17ß-E2) from real samples. The PM-MIMs possessed a sandwich micro-spherical structure containing Fe3O4 core, SiO2 middle layer, and MIPs shell with thickness of 25 nm. The PM-MIMs displayed excellent photoresponsive properties and could be rapidly separated from solutions under an external magnet. The PM-MIMs had specific affinity towards 17ß-E2 with high adsorption capacity (Qmax=0.84 mg g(-1)) and fast binding kinetics (Kd=26.08 mg L(-1)). The PM-MIMs proved to be an ideal photoswitch with the ability of reversible uptake and release of 17ß-E2 upon alternate 365 and 440 nm irradiation: 45.0% of 17ß-E2 released from the PM-MIMs upon 365 nm irradiation, and 94.0% of the released 17ß-E2 was rebound to the PM-MIMs at 440 nm. Accordingly, the PM-MIMs were applied for fast separation and extraction of 17ß-E2 followed by HPLC-UV determination, presenting the low limit of detection (LOD, S/N=3) and quantification (LOQ, S/N=10) of 0.18 and 0.62 µmol L(-1), respectively. The high recoveries for spiked milk powder and drinking water samples were in the range of 97.5-113.0% with relative standard deviations less than 4.4%. This study reasonably combined photonic response, magnetic separation and surface imprinting, which endowed the PM-MIMs with significant advantages of high adsorption capacity and fast binding kinetics, convenient separation and recycled use, and simple rapid eco-benign adsorption/elution processes for template molecules. Thus, the PM-MIMs based method may be a simple, rapid, convenient, cost-effective and environmentally-friendly way for simultaneous separation, enrichment and detection of trace 17ß-E2 in complicated matrices.
ISSN	00219673
Volume Number	1442
e-ISSN	18733778
Journal	Journal of Chromatography A
Language	English
Publisher	Elsevier
Publisher Date	2016-04-15
Publisher Place	Netherlands
Access Restriction	One Nation One Subscription (ONOS)
Subject Keyword	Chemistry Techniques, Analytical Methods Estradiol Isolation & Purification Magnetics Microspheres Adsorption Chemistry Molecular Imprinting Nanoparticles Polymerization Silicon Dioxide Journal Article Research Support, Non-u.s. Gov't Discipline Analytical Chemistry
Content Type	Text
Resource Type	Article
Subject	Organic Chemistry Medicine Analytical Chemistry Biochemistry

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