Dye‐molecular‐imprinted polysiloxanes. II. Preparation, characterization, and recognition behavior

Estrone has been identified as an important potential endocrine-disrupting compound, so that sensitive and reliable analytical methods are required for its determination and the assurance of human health. Using estrone as the template, acrylamide as the functional monomer, and methacryloxypropyltrimethoxysilane as the cross-linker, an organic-inorganic hybrid material has been synthesized by the molecular imprinting technique combined with a non-hydrolytic so-gel process. The synthesized polymer was characterized by FT-IR and static adsorption experiments, and the results showed that it had good recognition and selective ability for estrone. A novel method for separation and determination of trace estrone in water samples was developed using molecularly imprinted solid phase extraction coupled with HPLC. Under the selected experimental condition, the detection limit (S/N = 3) was 9.3 ng/L, and the RSD for five replicate extractions of 10 mug/L estrone was less than 5.0%. This method was employed for quantitative determination of estrone in river, lake, and tap water with recoveries ranging from 83.38 to 98.12%.

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“…The Scatchard model (Eq. (5)) was also used for evaluation of the adsorption of imprinted polymer [29]:…”

Section: Evaluation Of Adsorption and Selectivity Of Imprinted Polymermentioning

confidence: 99%

Separation and determination of estrone in environmental and drinking water using molecularly imprinted solid phase extraction coupled with HPLC

Wang¹,

Fang

et al. 2008

J of Separation Science

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“…Dye-doped silica is a new class of organic-inorganic composite materials, [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16] which find potential in a wide variety of industrial applications, such as colored coatings, 1 fluorescence, visible light and near-infrared emitters, [2][3][4][5] biomedical and chemical sensors, 5-7 molecular imprints, 8 nonlinear optical devices, [9][10][11] etc., depending on the properties of the dye. Dye-doped silica can easily be prepared through physical means such as solution blending, in which dye molecules are made to adsorb on silica particles via secondary interactive forces, such as hydrogen bonds.…”

Section: Introductionmentioning

confidence: 99%

Thermal analyses of dye Disperse Red 1 grafted onto silica nanoparticles

et al. 2015

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Dye-grafted silica nanoparticles (GSiO 2 ) were synthesized via a dual-step process involving, first, attachment of the organic dye Disperse Red 1 (DR1) to the coupling agent, 3-isocyanatopropyltriethoxysilane, by means of urethane bonds, and then grafting of the silylated-DR1 onto silica nanoparticles ($6 nm) prepared by hydrolysis and condensation of tetraethoxysilane in a sol-gel process. Dye-adsorbed silica nanoparticles (DSiO 2 ) were also prepared for comparison, for which DR1 was bound only physically to silica instead of covalent bonds. The thermal behaviors of the formed GSiO 2 and DSiO 2 were examined by means of differential scanning calorimetry and thermal gravimetric analysis. The results showed that both the particle size and silica content have significant effects on the thermal behaviors of the dye-adsorbed and dye-grafted silica. Moreover, crystalline DR1 lost significantly its crystallinity after being adsorbed on silica, and became virtually amorphous after being grafted onto silica. The formed particles were UV-cured with a multifunctional acrylic monomer to yield color coatings on glass substrates. UVvisible spectra indicated that brightness and color saturation of the coating comprising GSiO 2 could be maintained better than that comprising DSiO 2 after heat treatment at 280°C.

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“…The obtained MIP layers induced the nucleation of their morphologically matched crystals. Gong et al [185] have also used IR spectroscopy to study acrylonitrile-acrylic acid terpolymer membrane imprinted with uric acid. In their work, the MIP membrane displayed good thermal stability and a good molecular recognition behavior toward uric acid.…”

Section: Optical Sensorsmentioning

confidence: 99%