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Analytical Letters Volume 44, 2011 - Issue 11: 10th International Symposium on Kinetics in Analytical Chemistry (KAC-10)
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SENSORS

Hydroxy-Iron/β-cyclodextrin-Film Amperometric Sensor for the Endocrine Disruptor Substance Bisphenol-A in an Aqueous Medium with Reduced Fouling Effects

Milua Masikini SensorLab, Department of Chemistry, University of the Western Cape, Bellville, South Africa
,
Tesfaye T. Waryo SensorLab, Department of Chemistry, University of the Western Cape, Bellville, South AfricaCorrespondence[email protected]
,
Priscilla G. L. Baker SensorLab, Department of Chemistry, University of the Western Cape, Bellville, South Africa
,
Lundi V. Ngqongwa SensorLab, Department of Chemistry, University of the Western Cape, Bellville, South Africa
,
Avril R. Williams SensorLab, Department of Chemistry, University of the Western Cape, Bellville, South Africa
&
Emmanuel I. Iwuoha SensorLab, Department of Chemistry, University of the Western Cape, Bellville, South Africa
Pages 2047-2060 | Received 10 May 2010, Accepted 29 Sep 2010, Published online: 12 Aug 2011

REFERENCES

  • Burridge , E. 2003 . Bisphenol A: Product profile . Eur. Chem. News Apr. 14–20 : 17 .
  • Chauke , V. , F. Matemadombo , and T. Nyokong . 2010 . Remarkable sensitivity for detection of bisphenol A on a gold electrode modified with nickel tetraamino phthalocyanine containing Ni-O-Ni bridges . J. Hazard. Mat. 178 ( 1–3 ): 180 – 186 .
  • Ferancova , A. , and J. Labuda . 2001 . Cyclodextrins as electrode modifiers . Fresenius J. Anal. Chem. 370 : 1 – 10 .
  • George , W. O. , and P. S. Mcintyre 1987 . Infrared spectroscopy . KAA : London : John Wiley and Sons .
  • Gupta , A. K. , and M. Gupta . 2005 . Synthesis and surface engineering of iron oxide nanoparticles for biomedical applications . Biomaterials 26 ( 18 ): 3995 – 4021 .
  • Huang , W. 2005 . Voltammetric determination of bisphenol a using a carbon paste electrode based on the enhancement effect of cetyltrimethylammonium bromide (CTAB) . Bull. Korean Chem. Soc. 26 : 1560 – 1564 .
  • Inoue , K. , K. Kato , Y. Yoshimura , T. Makino , and H. Nakazawa . 2000 . Determination of bisphenol A in human serum by high-performance liquid chromatography with multi-electrode electrochemical detection . J. Chromatogr. B 749 ( 1 ): 17 – 23 .
  • Jolivet , J.-P. , E. Tronc , and C. Chaneac . 2002 . Synthesis of iron oxide-based magnetic nanomaterials and composites . C. R. Chimie 5 : 659 – 664 .
  • Jolivet , J.-P. 2000 . Metal Oxide chemistry and synthesis: From solution to solid state . Chichester , UK : Wiley .
  • Kandalkar , S. G. , J. L. Gunjakar , C. D. Lokhande , and O.-S. Joo . 2009 . Synthesis of cobalt oxide interconnected flacks and nano-worms structures using low temperature chemical bath deposition . J. Alloys Comp. 478 ( 1–2 ): 594 – 598 .
  • Keiser , J. T. , C. W. Brown , and R. H. Heidersbach . 1982 . The electrochemical reduction of rust films on weathering steel surfaces . J. Electrochem. Soc. 129 ( 12 ): 2686 – 2689 .
  • Kuch , H. M. , and K. Ballschmiter . 2001 . Determination of endocrine-disrupting phenolic compounds and estrogens in surface and drinking water by HRGC-(NCI)-MS in the picogram per liter range . Environ. Sci. Technol. 35 : 3201 – 3206 .
  • Kuramitz , H. , Y. Nakata , M. Kawasaki , and S. Tanaka . 2001 . Electrochemical oxidation of bisphenol A. Application to the removal of bisphenol A using a carbon fiber electrode . Chemosphere 45 ( 1 ): 37 – 43 .
  • Lide , D. R. 2006 . CRC handbook of chemistry and physics . Boca Raton : Taylor & Francis .
  • Lin , M. S. , and H. J. Leu . 2005 . A Fe3O4-based chemical sensor for cathodic determination of hydrogen peroxide . Electroanalysis 17 ( 22 ): 2068 – 2073 .
  • McMurry , J. 1999 . Organic chemistry . Pacific Grove , CA : Brooks/Cole .
  • Méndez , M. A. , M. F. Suárez , and M. T. Cortés . 2006 . Electrochemical impedance spectroscopy of diluted solutions of Bisphenol A . J. Electroanal. Chem. 590 ( 2 ): 181 – 189 .
  • Murugananthan , M. , S. Yoshihara , T. Rakuma , and T. Shirakashi . 2008 . Mineralization of bisphenol A (BPA) by anodic oxidation with boron-doped diamond (BDD) electrode . J. Hazard. Mat. 154 ( 1–3 ): 213 – 220 .
  • NTP. 2008. Draft NTP brief on bisphenol A, National Toxicology Program. U.S. Department of Health and Human Services.
  • Peller , J. R. , S. P. Mezyk , and W. J. Cooper . 2009 . Bisphenol A reactions with hydroxyl radicals: diverse pathways determined between deionized water and tertiary treated wastewater solutions . Res. Chem. Intermed. 35 : 21 – 34 .
  • Portaccio , M. , D. Di Tuoro , F. Arduini , M. Lepore , D. G. Mita , N. Diano , L. Mita , and D. Moscone . 2010 . A thionine-modified carbon paste amperometric biosensor for catechol and bisphenol A determination . Biosensors Bioelectron. 25 ( 9 ): 2003 – 2008 .
  • Predoi , D. 2007 . A study on iron oxide nanoparticles coated with dextrin obtained by coprecipitation . Digest J. Nanomat. Biostruct. 2 : 169 – 173 .
  • Rodriguez-Mozaz , S. , M. J. L. D. Alda , and D. Barcelo . 2004 . Monitoring of estrogens, pesticides and bisphenol A in natural waters and drinking water treatment plants by solid-phase extraction-liquid chromatography-mass spectrometry . J. Chromatogr. A. 1045 : 85 – 92 .
  • Saal , F. S. V. , and C. Hughes . 2005 . An extensive new literature concerning low-dose effects of bisphenol a shows the need for a new risk assessment . Environ. Health Perspect. 113 ( 8 ): 926 – 933 .
  • Stuart , J. D. , C. P. Capulong , K. D. Launer , and X. Pan . 2005 . Analyses of phenolic endocrine disrupting chemicals in marine samples by both gas and liquid chromatography-mass spectrometry . J. Chromatogr. A. 1079 : 136 – 145 .
  • Tanaka , S. , Y. Nakata , T. Kimura , Yustiawati, M. Kawasaki , and H. Kuramitz . 2002 . Electrochemical decomposition of bisphenol A using Pt/Ti and SnO2/Ti anodes . J. Appl. Electrochem. 32 : 197 – 202 .
  • Vega , D. , L. Agüí , A. González-Cortés , P. Yáñez-Sedeño , and J. M. Pingarrón . 2007 . Electrochemical detection of phenolic estrogenic compounds at carbon nanotube-modified electrodes . Talanta 71 ( 3 ): 1031 – 1038 .
  • Vilchez , J. L. , A. Zafra , A. Gonzalez-Casado , E. Hontoria , and M. D. Olmo . 2001 . Determination of trace amounts of bisphenol F, bisphenol A and their diglycidyl ethers in wastewater by gas chromatography-mass spectrometry . Anal. Chim. Acta 431 : 31 – 40 .
  • Wang , F. , J. Yang , and K. Wu . 2009 . Mesoporous silica-based electrochemical sensor for sensitive determination of environmental hormone bisphenol . A. Analytica Chimica Acta 638 : 23 – 28 .
  • Waryo , T. T. , S. Begic , E. Turkusic , K. Vytras , and K. Kalcher 2005 . Metal oxide-based carbon amperometric H2O2-transducers and oxidase biosensors sensing . In Electroanalysis , ed. K. Vytras , and K. Kalcher . Pardubice : University of Pardubice , 145 – 191 .
  • Xu , B. , N. Gao , M. Rui , H. Wang , and H. Wu . 2007 . Degradation of endocrine disruptor bisphenol A in drinking water by ozone oxidation . Front. Environ. Sci. Engin. 1 : 350 – 356 .
  • Ye , X. , Z. Kuklenyik , L. L. Needham , and A. M. Calafat . 2005 . Automated on-line column-switching HPLC-MS/MS method with peak focusing for the determination of nine environmental phenols in urine . Analytical Chem. 77 : 5407 – 5413 .
  • Yin , H.-S. , Y.-L. Zhou , and S.-Y. Ai . 2009 . Preparation and characteristic of cobalt phthalocyanine modified carbon paste electrode for bisphenol A detection . J. Electroanal. Chem. 626 ( 1–2 ): 80 – 88 .
  • Yin , H. , L. Cui , S. Ai , H. Fan , and L. Zhu . 2010a . Electrochemical determination of bisphenol A at Mg-Al-CO3 layered double hydroxide modified glassy carbon electrode . Electrochim, Acta 55 ( 3 ): 603 – 610 .
  • Yin , H. , Y. Zhou , S. Ai , Q. Chen , X. Zhu , X. Liu , and L. Zhu . 2010b . Sensitivity and selectivity determination of BPA in real water samples using PAMAM dendrimer and CoTe quantum dots modified glassy carbon electrode . J. Hazard. Mat. 174 ( 1–3 ): 236 – 243 .
  • Yin , H. , Y. Zhou , J. Xu , S. Ai , L. Cui , and L. Zhu . 2010c . Amperometric biosensor based on tyrosinase immobilized onto multiwalled carbon nanotubes-cobalt phthalocyanine-silk fibroin film and its application to determine bisphenol A . Anal. Chim. Acta 659 ( 1–2 ): 144 – 150 .

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