Abstract A (-)-nicotine-selective polymer was prepared by molecular imprinting technique using methacrylic acid as a functional monomer. Liquid-chromatographic tests, using the polymers as a stationary phase, exhibited that the basicity of the functional group of (-)-nicotine is crucial for rebinding by the molecularly imprinted polymer. Scatchard analysis implied that the binding sites generated within the polymer are heterogeneous in terms of affinity, and the apparent dissociation constant of the highest affinity binding sites was estimated as 3.7 μM. 相似文献
Molecularly imprinted continuous polymer rods are prepared inside PEEK tubes of 1 mm i. d. by an in situ preparation technique; and chiral separations on such media have been demonstrated. The miniaturized column filled with (–)‐cinchonidine‐imprinted or (+)‐cinchonine‐imprinted polymer rods based on a copolymer of 2‐(trifluoromethyl)acrylic acid and ethylene glycol dimethacrylate permitted diastereoseparation of (–)‐cinchonidine and (+)‐cinchonine; the template molecule is retained to a greater extent than the corresponding antipode. Increasing the amount of cyclohexanol in the polymerization mixture decreased the backpressure of the resultant rod and the addition of latex beads suspended in water to the prepolymerization mixture affected the selectivity and affinity of the imprinted polymer rods. The column length is adjusted easily by cutting, thus allowing easy control of retention behavior and analysis time. 相似文献
New synthetic strategies for molecularly imprinted polymers (MIPs) were developed to mimic the flexibility and mobility exhibited by receptor/enzyme binding pockets. The MIPs were prepared by bulk polymerization with quercetin as template molecule, acrylamide as functional monomer, ethylene glycol dimethacrylate as cross‐linker, and THF as porogen. The innovative grafting of specific oligoethylene glycol units onto the imprinted cavities allowed MIPs to be obtained that exhibit extended selectivity towards template analogues. This synthetic strategy gives promising perspectives for the design of molecular recognition of molecules based on a congruent pharmacophore, which should be of interest for drug development. 相似文献
Abstract Penicillin G (PG) in milk is unsafe for human and is a big problem for the foods industry. Hence, the better analytical and eliminative techniques are demanded. We investigated a PG molecular imprinted polymer (MIP), which can sensitively detect and extract the PG from milk and other samples. The MIP synthesis involved a β-lactam antibiotics PG, methacrylic acid (MAA) and dimethyl formamide (DMF). Its properties were analyzed with Scatchard plot, which showed that there were two affinity sites of the PG polymer. The first equilibrium dissociation constant of the high-affinity binding sites Kd1 was 1.14 × 10?4 mol/L and the binding capacity Qmax1 was 46.01 µmol/g; the second equilibrium dissociation constant of the low-affinity binding sites Kd2 was 1.35 × 10?3 mol/L and the binding capacity Qmax2 was 72.55 µmol/g. Furthermore, two PG determination methods using the polymer were developed. The first was carried out quantitatively with a spectrophotometer and the detection limit was 1 ppm. The other one was the combination of the MIP particles with milk fermentation for PG analysis and the sensitivity was 10 ppb. 相似文献
A method for the determination of sialic acid (SA) in serum with high performance liquid chromatography was established. The condition were Sheer C18 , 10μm , column, sulfuric acid solution (pH 3.0) eluent and UV-210 detection. The recovery and detection limit of SA were 99.42% and 0.003 nmol/L respectively. The calibrations curve was linear within the range of 0. 032-3.23 nmol/L. The SA in serum samples of 34 healthy subjects and 92 cancer patients were determined by this method. 相似文献
The preparation of nanosized, molecularly imprinted polymer particles by nonaqueous emulsion polymerization is presented. Monodisperse cross‐linked polymer nanospheres with a diameter of around 100 nm were synthesized using a standard monomer mixture of methacrylic acid and ethylene dimethacrylate, containing (±)‐propranolol as a template. The rebinding efficiency of the resulting particles was determined by batch rebinding tests and isothermal titration calorimetry (ITC). The results indicate that the proposed imprinting process under nonaqueous conditions lead to particles with an enhanced capacity of template rebinding compared to both nonimprinted ones and to particles obtained by more conventional emulsion polymerization in water.
In this paper, we provided a self-assembly strategy to prepare surface molecularly imprinted polyaniline (PANI) nanofiber. The route provides simplicity, convenience, low cost, and high-productivity due to the omission of the template guided materials and their post-treatment. The molecularly imprinted PANI nanofibers could selectively bind the template (4-hydroxybenzoic acid) molecules, and the nanofibers have large adsorption capacity and fast uptake kinetics for target species. The PANI nanofibers could provide a good material for imprinting various organic or biological molecules toward applications in chemical/biological sensors and bioassay. 相似文献
Summary: Magnetic nanoparticles have been prepared by a co‐precipitation method and modified with methacryloxypropyltrimethoxysilane. Magnetic molecularly imprinted polymer particles have been prepared by suspension polymerization in silicone oil. The particles possess a high affinity to the template molecules and are rapidly separated under a magnetic field.
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