Synthesis of surface molecularly imprinted silica micro-particles in aqueous solution and the usage for selective off-line solid-phase extraction of 2,4-dinitrophenol from water matrixes.

Very severe reaction conditions are required in the conventional synthesis of molecularly imprinted polymers (MIPs), which is unfavorable to their applications in chemical separation and analysis. A simple surface molecular imprinting approach was developed to synthesize MIP-coated SiO2 micro-particles in aqueous solutions. The 1H NMR and UV-vis spectroscopic analysis indicated that via hydrogen bonding, the functional monomer (o-phenylenediamine) can associate with the target (template) 2,4-dinitrophenol (2,4-DNP), as a model compound of organic pollutants, to form a precursor in aqueous solution. The copolymerization of this precursor and the free monomer was performed in the aqueous suspension of surface modified SiO2 particles, leading to the formation of MIP-coated SiO2 micro-particles. The MIP-coated silica particles were characterized with FT-IR, TGA, and UV-vis solid-state reflection spectroscopy, and were further demonstrated to have high adsorption capacity, excellent selectivity and site accessibility for 2,4-DNP. The new absorbent was successfully used in solid-phase extraction (SPE) to selectively enrich and determine 2,4-DNP in aqueous samples. The experimental results indicated that the MIP-SPE column yielded recoveries higher than 92% with R.S.D. <2.8%, much better than the commercial C18-SPE column, which produced a recovery less than 30% with R.S.D. <3.0%.

[1]  Heqing Tang,et al.  Electrosynthesis of water-soluble self-doped poly(aniline-2,5-disulfonic acid) , 1998 .

[2]  S. Rimmer,et al.  Molecular Recognition of Caffeine by Shell Molecular Imprinted Core–Shell Polymer Particles in Aqueous Media , 2002 .

[3]  E. Turiel,et al.  Molecularly imprinted polymeric fibers for solid-phase microextraction. , 2007, Analytical chemistry.

[4]  Koji Sode,et al.  Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: the control of particle size suitable for different analytical applications. , 2007, Analytica chimica acta.

[5]  J. Haginaka,et al.  Uniform-sized molecularly imprinted polymer for (S)-naproxen selectively modified with hydrophilic external layer. , 1999, Journal of chromatography. A.

[6]  G. G. Stokes "J." , 1890, The New Yale Book of Quotations.

[7]  K. Mosbach,et al.  A Simple Method for Spin‐Coating Molecularly Imprinted Polymer Films of Controlled Thickness and Porosity , 2004 .

[8]  D. Barceló,et al.  Effect of competitor design on immunoassay specificity: Development and evaluation of an enzyme-linked immunosorbent assay for 2,4-dinitrophenol , 1999 .

[9]  Deman Han,et al.  Preparation and evaluation of a molecularly imprinted sol-gel material for on-line solid-phase extraction coupled with high performance liquid chromatography for the determination of trace pentachlorophenol in water samples. , 2005, Journal of chromatography. A.

[10]  Heqing Tang,et al.  Electrochemical copolymerization of aniline and aniline-2,5-disulfonic acid , 1997 .

[11]  Maria-Magdalena Titirici,et al.  Thin Molecularly Imprinted Polymer Films via Reversible Addition−Fragmentation Chain Transfer Polymerization , 2006 .

[12]  Heqing Tang,et al.  Electropolymerization of aniline modified by para-phenylenediamine , 1995 .

[13]  Bing Han,et al.  Surface-imprinted core-shell nanoparticles for sorbent assays. , 2007, Analytical chemistry.

[14]  Boris Mizaikoff,et al.  Molecularly imprinted polymers—potential and challenges in analytical chemistry , 2005, Analytica Chimica Acta.

[15]  D. Friend Progress in medicinal chemistry. vol. 1 , 1962 .

[16]  D. Barceló,et al.  Determination of phenolic compounds in water and waste water , 1996 .

[17]  Ellen L. Holthoff,et al.  Molecularly templated materials in chemical sensing. , 2007, Analytica chimica acta.

[18]  Daming Gao,et al.  A surface functional monomer-directing strategy for highly dense imprinting of TNT at surface of silica nanoparticles. , 2007, Journal of the American Chemical Society.

[19]  D. Sherrington,et al.  Synthesis and application of a carbamazepine-imprinted polymer for solid-phase extraction from urine and wastewater. , 2007, Analytica chimica acta.

[20]  A. Turner,et al.  Substitution of antibodies and receptors with molecularly imprinted polymers in enzyme-linked and fluorescent assays. , 2001, Biosensors & bioelectronics.

[21]  Toshifumi Takeuchi,et al.  Molecular Imprinting: From Fundamentals to Applications , 2003 .

[22]  Guozhen Fang,et al.  Synthesis and characterization of a molecularly imprinted silica gel sorbent for the on-line determination of trace Sudan I in Chilli powder through high-performance liquid chromatography. , 2007, Journal of agricultural and food chemistry.

[23]  Xiantao Shen,et al.  Synthesis of molecular imprinted polymer coated photocatalysts with high selectivity. , 2007, Chemical communications.

[24]  Xiantao Shen,et al.  Enhanced photocatalytic degradation and selective removal of nitrophenols by using surface molecular imprinted titania. , 2008, Environmental science & technology.