Practice and Synthetize Molecularly Imprinted Polymers for Seperating Target Neuro-Protective Compounds from TCM with Less Pollution

Ping Geng; Qing Shan Liu; Kebaituli Gulibanumu; Xu Li; Ke Qin Li; Xiao Ying Yin

doi:10.4028/www.scientific.net/AMR.955-959.239

Paper Titles

Effects of UV-B Radiation on the Growth, Physiological and Biochemical Characteristics of Chondrus ocellatus Holm (Rhodophyta)
p.222

Exceptional High Contribution of Metabolic Effects to Stable Carbon Isotope Composition of Experimental Cultured Freshwater Bivalve Shell
p.227

Impact of Different Carbon Sources on Phosphorus Removal in (AO)²SBR System
p.231

Isolation and Characterization of Three Bacterium Strains for Biodegradation of Methamidophos
p.235

Practice and Synthetize Molecularly Imprinted Polymers for Seperating Target Neuro-Protective Compounds from TCM with Less Pollution
p.239

Preliminary Study on Effects of Nanoscale Amendments on Hyperaccumulator Indian Marigold Grown on Co-Contaminated Soils
p.243

Research on Biological Materials for Artificial Propagation of Bird Nest Fern Spore
p.248

Research on Characteristics of Microbe Spatiotemporal Distribution in Indoor Air
p.253

Research on the Environmental Geochemistry Characteristics of Heavy Metals in Contaminated Industrial Fields
p.257

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Practice and Synthetize Molecularly Imprinted Polymers for Seperating Target Neuro-Protective Compounds from TCM with Less Pollution

Abstract:

Molecularly imprinted polymers (MIPs) are synthetic materials that can be the environmental protection extraction method in TCM research and industry. They can overcome the defects of traditional extract methods and environmental pollution. In our research, MIPs were prepared by precipitation polymerization with neuro-protective picroside I and ginsenoside Rb1 as the template molecule. Moreover, the morphology of MIPs was characterized by electron microscope scanning and the static adsorption capacity was measured by the Scatchard equation. Finally, MIPs were made into MIP-SPE columns to enrich the template molecule and its analogues comparing with C₁₈-SPE column and the results show that MIPs have good affinity and selectivity towards the Rb1 and Picroside I in SPE columns. This research may offer a more environmentally friendly method to extract active compounds in the traditional herbal.