Synthesis and characterization of a new copper(II) ion-imprinted polymer
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World Health Organization (2011) Guidelines for drinking-water quality, 4th edn. p 224
Turnlund JR (2006) In: Shils ME, Shike M, Ross AC, Caballero B, Cousins RJ (eds) Modern nutrition in health and disease, 10th edn. Lippincott Williams & Wilkins, Philadelphia, p 286
Johnson MA, Fischer JG, Kays SE (1992) Is copper an antioxidant nutrient? Crit Rev Food Sci Nutr 32(1):1–31
Angelova M, Asenova S, Nedkova V, Koleva-Kolarova R (2011) Copper in the Human Organism. TJS 9(1):88–98
Desai V, Kaler SG (2008) Role of copper in human neurological disorders. Am J Clin Nutr 88:855S–858S
Kazi TG, Afridi HI, Kazi N, Jamali MK, Arain MB, Jalbani N, Kandhro GA (2008) Copper, chromium, manganese, iron, nickel, and zinc levels in biological samples of diabetes mellitus patients. Biol Trace Elem Res 122(1):1–18
Akman S, Welz B, Tokman N (2005) Investigation of interference mechanisms of nickel chloride on copper determination and of colloidal palladium as modifier in electrothermal atomic absorption spectrometry using a dual cavity platform. Spectrochim Acta Part B 60:1349–1356
Shrivas K (2010) Monitoring of copper level in water and soil samples by using liquid–liquid extraction. Environ Monit Assess 168:315–319
Farajzadeh MA, Bahram M, Zorita S, Mehr BG (2009) Optimization and application of homogeneous liquid-liquid extraction in preconcentration of copper (II) in a ternary solvent system. J Hazard Mater 161(2–3):1535–1543
Citak D, Tuzen M, Soylak M (2009) Simultaneous coprecipitation of lead, cobalt, copper, cadmium, iron and nickel in food samples with zirconium (IV) hydroxide prior to their flame atomic absorption spectrometric determination. Food Chem Toxicol 47:2302–2307
Escudero LA, Cerutti S, Olsina RA, Salonia JA, Gasquez JA (2010) Factorial design optimization of experimental variables in the on-line separation/preconcentration of copper in water samples using solid phase extraction and ICP-OES determination. J Hazard Mater 183:218–223
Dindar MH, Fathi SAM, Yaftian MR, Noushiranzadeh N (2010) Solid phase extraction of copper(II) ions using C18-silica disks modified by oxime ligands. J Hazard Mater 179:289–298
Yamini Y, Faraji M, Shariati S, Hassani R, Ghambarian M (2008) On-line metals preconcentration and simultaneous determination using cloud point extraction and inductively coupled plasma optical emission spectrometry in water samples. Anal Chim Acta 612:144–151
Ghaedi M, Shokrollahi A, Ahmadi F, Rajabi HM, Soylak M (2008) Cloud point extraction for the determination of copper, nickel and cobalt ions in environmental samples by flame atomic absorption spectrometry. J Hazard Mater 150:533–540
Liska I (1993) On-line versus off-line solid-phase extraction in the determination of organic contaminants in water. J Chromatogr A 655:163–176
Rao TP, Daniel S, Gladis JM (2004) Tailored materials for preconcentration or separation of metals by ion imprinted polymers for solid-phase extraction (IIP-SPE). Trends Anal Chem 23(1):28–35
Nishide H, Deguchi J, Tsuchida E (1976) Selective adsorption of metal ions on crosslinked poly(vinylpyridine) resin prepared with a metal ions as a template. Chem Lett 5:169–176
Nishide H, Deguchi J, Tsuchida E (1977) Adsorption of metal ions on crosslinked poly(4-vinylpyridine) resins prepared with a metal ion as template. J Polym Sci Polym Chem 15:3023–3029
Branger C, Meouche W, Margaillan A (2013) Recent advances on ion-imprinted polymers. React Funct Polym 73:859–875
Singh DK, Mishra S (2009) Synthesis of a new Cu (II)-ion imprinted polymer for solid phase extraction and preconcentration of Cu (II). Chromatographia 70:1539–1544
Shamsipur M, Fasihi J, Khanchi A, Hassani R (2007) A stoichiometric imprinted chelating resin for selective recognition of copper (II) ions in aqueous media. Anal Chim Acta 599:294–301
Dakova I, Karadjova I, Ivanov I, Georgieva V (2007) Solid phase selective separation and preconcentration of Cu(II) by Cu(II)-imprinted polymethacrylic microbeads. Anal Chim Acta 584:196–203
Hoai NT, Yoo DK, Kim D (2010) Batch and column separation characteristics of copper-imprinted porous polymer micro-beads synthesized by a direct imprinting method. J Hazard Mater 173:462–467
Walas S, Tobiasz A, Gawin M, Trzewik B (2008) Application of a metal ion-imprinted polymer based on salen–Cu complex to flow injection preconcentration and FAAS determination of copper. Talanta 76:96–101
Tobiasz A, Walas S, Trzewik B, Grzybek P (2009) Cu(II)-imprinted styrene-divinylbenzene beads as a new sorbent for flow injection-flame atomic absorption determination of copper. Microchem J 93:87–92
Bhunia A, Roesky PW, Lan Y, Kostakis GE (2009) Salen-based infinite coordination polymers of nickel and copper. Inorg Chem 48:10483–10485
Bhunia A, Gotthardt MA, Yadav M, Gamer MT (2013) Salen-based coordination polymers of manganese and the rare-earth elements: synthesis and catalytic aerobic epoxidation of olefins. Chem Eur J 19:1986–1995
Hoai NT, Kim D (2009) Synthesis, structure, and selective separation behavior of copper-imprinted microporous polymethacrylate beads. AIChE 55:3248–3254
Kanazawa R, Mori K, Tokuyama H, Sakohara S (2004) Preparation of thermosensitive microgel adsorbent for quick adsorption of heavy metal ions by a temperature change. J Chem Eng Jpn 37:804–807
Shamsipur M, Besharati-Seidani A, Fasihi J, Sharghi H (2010) Synthesis and characterization of novel ion-imprinted polymeric nanoparticles for very fast and highly selective recognition of copper (II) ions. Talanta 83:674–681
Ebrahimzadeh H, Behbahani M, Yamini Y, Adlnasab L (2013) Optimization of Cu(II)-ion imprinted nanoparticles for trace monitoring of copper in water and fish samples using a Box-Behnken design. React Funct Polym 73:23–29
Baghel A, Boopathi M, Singh B, Pandey P, Mahato TH, Gutch PK, Sekhar K (2007) Synthesis and characterization of metal ion imprinted nano-porous polymer for the selective recognition of copper. Biosens Bioelectron 22:3326–3334
Ng SM, Narayanaswamy R (2010) Demonstration of a simple, economical and practical technique utilising an imprinted polymer for metal ion sensing. Microchim Acta 169:303–311
Zhai Y, Yang D, Chang X, Liu Y (2008) Selective enrichment of trace copper(II) from biological and natural water samples by SPE using ion-imprinted polymer. J Sep Sci 31:1195–1200
Zhai Y, Liu Y, Chang X, Chen S (2007) Selective solid-phase extraction of trace cadmium(II) with an ionic imprinted polymer prepared from a dual-ligand monomer. Anal Chim Acta 593:123–128
Wang S, Zhang R (2006) Selective solid-phase extraction of trace copper ions in aqueous solution with a Cu(II)-imprinted interpenetrating polymer network gel prepared by ionic imprinted polymer (IIP) technique. Microchim Acta 154:73–80
Dam AH, Kim D (2008) Synthesis, structure, and selective separation behavior of copper-imprinted microporous polymethacrylate beads. J Appl Polym Sci 108:14–24
Say R, Birlik E, Ersöz A, Yılmaz F, Gedikbey T, Denizli A (2003) Preconcentration of copper on ion- selective imprinted polymer microbeads. Anal Chim Acta 480:251–258
Shamsipur M, Besharati-Seidani A (2011) Synthesis of a novel nanostructured ion-imprinted polymer for very fast and highly selective recognition of copper(II) ions in aqueous media. React Funct Polym 71:131–139
Lopes Pinheiro SC, Descalzo AB, Raimundo IM Jr, Orellana G, Moreno-Bondi MC (2012) Fluorescent ion-imprinted polymers for selective Cu(II) optosensing. Anal Bioanal Chem 402:3253–3260
Cui Ch, He M, Chen B, Hu B (2013) Restricted accessed material-copper(II) ion imprinted polymer solid phase extraction combined with inductively coupled plasma-optical emission spectrometry for the determination of free Cu(II) in urine and serum samples. Talanta 116:1040–1046
Compton TR (2007) Determination of metals in: determination of additives in polymers and rubbers. iSmithers Rapra Publishing
Bichinho KM, Pozzobon Pires G, Stedile FC, dos Santos JHZ, Wolf CR (2005) Determination of catalyst metal residues in polymers by X-ray fluorescence. Spectrochimica Acta Part B 60:599–604
Bianchini D, Bichinho KM, dos Santos JHZ (2002) Polyethylenes produced with zirconocene immobilized on MAO-modified silicas. Polymer 43:2937–2943
Cook WS, Jones CO, Altenau AG (1968) X-ray fluorescence analysis of additive elements in polymers. Can Spectr 13:64–68
Meites L (1963) Handbook of analytical chemistry. McGraw-Hill Book Company, New York
Nacano LR, Segatelli MG, Tarley CRT (2010) Selective sorbent enrichment of nickel ions from aqueous solutions using a hierarchically hybrid organic-inorganic polymer based on double imprinting concept. J Braz Chem Soc 21:419–430
Kaewprasit C, Hequet E, Abidi N, Gourlot JP (1998) Application of methylene blue adsorption to cotton fiber specific surface area measurement: part I. Methodology. J Cotton Sci 2:164–173
Shakerian F, Dadfarnia S, Haji Shabani AM (2012) Synthesis and application of nano-pore size ion imprinted polymer for solid phase extraction and determination of zinc in different matrices. Food Chem 134:488–493
Tsoi YK, Ho YM, Sze-Yin Leung K (2012) Selective recognition of arsenic by tailoring ion-imprinted polymer for ICP-MS quantification. Talanta 89:162–168
Hasan S, Krishnaiah A, Ghosh TK, Viswanath DS, Boddu VM, Smith ED (2003) Adsorption of chromium(VI) on chitosan-coated perlite. Sep Sci Technol 38:3775–3793
Langmuir I (1918) The adsorption of gases on plane surfaces of glass, mica and platinum. J Am Chem Soc 40:1361–1403
Chen AH, Yang CY, Chen CY, Chen CY, Chen CW (2009) The chemically crosslinked metal-complexed chitosans for comparative adsorptions of Cu(II), Zn(II), Ni(II) and Pb(II) ions in aqueous medium. J Hazard Mat 163:1068–1075
Niu C, Wu W, Wang Z, Li S, Wang J (2007) Adsorption of heavy metal ions from aqueous solution by crosslinked carboxymethyl konjac glucomannan. J Hazard Mater 141:209–214
Ng JCY, Cheung WH, McKay G (2003) Equilibrium studies for the sorption of lead from effluents using chitosan. Chemosphere 52:1021–1030