SAINS MALAYSIANA

Sains Malaysiana 40(10)(2011): 1153–1163

Determination of Lead(II), Cadmium(II) and Copper(II) in Waste-Water and Soil Extracts on Mercury Film Screen-Printed Carbon Electrodes Sensor

(Penentuan Plumbum(II), Kadmium(II) dan Kuprum(II) dalam Air-buangan dan

Ekstrak Tanah dengan Sensor Skrin Bercetak Terubah Suai Karbon Filem Raksa)

Mohd Fairulnizal Md Noh*

Nutrition Unit, Cardiovascular Diabetes and Nutrition Research Centre

Institute for Medical Research, Jalan Pahang, 50588 Kuala Lumpur, Malaysia

Ibtisam E. Tothill

Cranfield Health, Cranfield University, Cranfield, Bedfordshire, MK43 0AL, England

United Kingdom

Received: 17 June 2010/Accepted: 21 October 2010

ABSTRACT

A sensor incorporating a three electrodes configuration have been fabricated using low cost screen-printing technology. These electrodes couples with Square Wave Stripping Voltammetry (SWSV) has provided a convenient screening tool for on-site detection of trace levels of Pb(II), Cd(II) and Cu(II). Modification of the graphite carbon surface based on in situ deposition of mercury film has been carried out. By appropriate choice of supporting medium, and optimized parameters setting such as amount of mercury used the deposition potential, deposition time, frequency and scan rate, well resolved and reproducible response for Pb(II), Cd(II) and Cu(II) were obtained. The performance characteristics of the developed mercury film screen printed carbon electrode (MFSPCE) for 120 s deposition time showed that the linear range for cadmium(II), lead(II) and copper(II) were 10 to 200 μg L^-1. The detection limit recorded for Cd(II), Pb(II) and Cu(II) were 2, 1 and 5 μg L^-1 with relative standard deviation (RSD) of 6.5%, 6.9% and 7.5%, respectively. Successful applications of the sensing device to waste-water and extracted soil samples were demonstrated.

Keywords: Mercury film screen-printed carbon electrode; soil extract; Square Wave Stripping Voltammetry; waste water

ABSTRAK

Suatu sensor yang terdiri daripada tiga konfigurasi elektrod telah difabrikasi menggunakan teknologi cetakan skrin yang berkos rendah. Elektrod-elektrod ini bersama dengan teknik Voltametri Perlucutan Gelombang Empat Segi (SWSV) merupakan peralatan penyaringan mudah untuk pengesanan aras terendah plumbum(II) cadmium(II) dan kuprum(II). Pengubahsuaian permukaan karbon grafit berasaskan kepada perlekatan semasa (in-situ) filem merkuri telah dijalankan. Melalui pemilihan media pembantu dan parameter-parameter yang sesuai seperti jumlah raksa yang digunakan, keupayaan pengendapan, masa perlekatan, frekuensi dan kadar saringan, keputusan dan kebolehhasilan untuk Pb(II), Cd(II) and Cu(II) telah diperoleh. Ciri-ciri pencapaian elektrod karbon bercetak skrin filem raksa yang direkabentuk dan dibiarkan selama 120 s untuk masa pengendapan, menunjukkan julat linear untuk Pb(II), Cd(II) dan Cu(II) ialah daripada 10 sehingga 200 μg L^-1. Had pengesanan yang dicatatkan untuk Cd(II), Pb(II) dan Cu(II) ialah 2, 1 dan 5 μg L^-1 dengan sisihan piawai relatif (RSD) 6.5%, 6.9% dan 7.5%, masing-masing. Aplikasi sensor ini kepada sampel air buangan dan sampel tanah yang diekstrak telah ditunjukkan.

Kata kunci: Air buangan; ekstrak tanah; elektrod karbon bercetak skrin filem raksa; Voltametri Perlucutan Gelombang Empat Segi

REFERENCES

Bond, A.M., Mahon, P.J., Schiewe, J. & Vicente-Beckett, V. 1997. An inexpensive and renewable pencil electrode for use in field-based stripping voltammetry. Analytica Chimica Acta345: 67-74.

Choi, J-Y., Seo, K., Cho, S-R., Oh, J-R., Kahng, S-H. & Park, J. 2001. Screen-printed anodic stripping voltammetric sensor containing HgO for heavy metal analysis. Analytica Chimica Acta443: 241-247.

Cooper, J., Bolbot, J.A. & Saini, S. & Setford, S.J. 2007. Electrochemical method for the rapid on site screening of cadmium and lead in soil and water samples. Water Air Soil Pollut. 179: 183-195

Desmond, D., Lane, B., Alderman, J., Hall, G., Alvarez-Icaza, M., Garde, A., Ryan, J., Barry, L., Svehla, G., Arrigan, D.W.M. & Schniffner, L. 1996. An ASIC-based system for stripping voltammetric determination of trace metals. Sensors and Actuators B 34(1-3): 466-470.

Desmond, D., Lane, B., Alderman, J., Glennon, J.D., Diamond, D. & Arrigan, D.W.M. 1997. Evaluation of miniaturised solid state reference electrodes on a silicon based component. Sensors and Actuators B 44: 389-396.

Desmond, D., Lane, B., Alderman, Arrigan, D.W.M. and Glennon, J.D. 1998. An Environmental Monitoring System for Trace Metals Using Stripping Voltammetry. Sensors and Actuators B 48: 409-414.

Güell,R., Aragaya, G., Fontàsc, C., Anticóc, E. & Merkoc, A. 2008. Sensitive and stable monitoring of lead and cadmium in seawater using screen-printed electrode and electrochemical stripping analysis. Analytica Chimica Acta627: 219-224.

Honeychurch, K.C., Hart, J.P. & Cowell, D.C. 2000. Voltammetric behaviour and trace determination of lead at a mercury-free screen-printed carbon electrode. Electroanalysis 12(3): 171-177.

Honeychurch, K.C., Hawkins, D.M., Hart, J.P. & Cowell, D.C. 2002. Voltammetric behaviour and trace determination of copper at a mercury-free screen-printed carbon electrode. Talanta 57: 565-574.

Kadara, R.O. 2003. Development of electrochemical sensors for heavy metal ions detection in environmental samples. PhD thesis, Biotechnology Centre, Cranfield University, U.K.

Khoo, S.O. & Guo, S.X. 2002. Rapidly renewable and reproducible mercury film coated carbon paste electrode for anodic stripping voltammetry. Electroanalysis 14(12): 813-822.

Kröger, S. & Turner, A.P.F. 1997. Solvent-resistant carbon electrodes screen-printed onto plastic for use in biosensors. Anal. Chim. Acta. 347: 9-18.

Masawat, P., Liawruangrath S. & Slater, J.M. 2003. Flow injection measurement of lead using mercury-free disposable gold-sputtered screen-printed carbon electrodes (SPCE). Sensors and Actuators B 91: 52-59.

Mohd F. Md Noh, Rashid O. Kadara & Ibtisam E. Tothill 2005. Development of cysteine-modified screen-printed electrode for the chronopotentiometric stripping analysis of cadmium (II) in wastewater and soil extracts. Analytical and Bioanalytical Chemistry 382: 1169-1174.

Newman, J.D., White, S.F., Tothill, I.E. & Turner, A.P.F. 1995. Catalytic materials, membranes, and fabrication technologies suitable for the construction of amperometric biosensors. Anal. Chem. 67: 4594-4599.

Noh, M.F.M. & Tothill, I.E. 2006. Development and characterisation of disposable gold electrodes, and their use for lead (II) analysis. Analytical and Bioanalytical Chemistry 386: 2095-210.

Palchetti, I., Cagnini, A., Mascini, M. & Turner, A.P.F. 1999. Characterisation of screen-printed electrodes for detection of heavy metals. Mikrochimica Acta131: 65-73.

Palchetti, I., Laschi, S. & Mascini, M. 2005. Miniaturised stripping-based carbon modified sensor for in field analysis of heavy metals. Analytica Chimica Acta530(1): 61-67.

Reeder, G.S. & Heineman, W.R. 1998. Electrochemical characterisation of a microfabricated thick-film carbon sensor for trace determination of lead. Sensors and Actuators B 52: 58-64.

Wang, J. & Tian, B. 1992. Screen-printed stripping voltammetric and potentiometric electrodes for decentralised testing of trace lead. Analytical Chemistry 64(15): 1706-1709.

Wang, J. & Tian, B. 1993a. Mercury-free disposable lead sensors based on potentiometry stripping analysis at gold-coated screen-printed electrodes. Analytical Chemistry 65(11): 1529-1532.

Wang, J. &Tian, B. 1993b. Screen-printed electrodes for stripping measurements of trace mercury. Analytical Chimica Acta274: 1-6.

Wang, J., Lu, J.M. & Yarnitzky, C. 1993. Screen-printed ultramicroelectrode arrays for on-site stripping measurements of trace metals. Journal of Electroanalyical Chemistry 361(1-2): 77-83.

Wang, J. 1994. Decentralised electrochemical monitoring of trace metals: From disposable strips to remote electrodes. Analyst 119: 763-766.

Wang, J., Pedrero, M., Sakslund, H., Hammerich, O. & Pingarron, J. 1996. Electrochemical activation of screen-printed carbon strips. Analyst 121: 345-350.

Wang, J., Tian, B., Nascimento,V.B. & Angnes, L. 1998. Performance of screen-printed carbon electrodes fabricated from different carbon inks. Electrochimica Acta43(23): 3459-3465.

Wei, S., Lei Z. & Lei, S, Da-Wei, Li., Yang, Li & Yi-Tao, L.2010. Simultaneous determination of cadmium(II), lead(II) and copper(II) by using a screen-printed electrode modified with mercury nano-droplets. Microchim Acta. DOI 10.1007/s00604-010-0354-9.

Williams, G. & D’Silva, C. 1994. Hand-held instrumentation for environmental monitoring. Analyst 119: 187-190.

Wilson, M.M. & Dewald, H.D. 2001. Stripping potentiometry of indium in aqueous chloride solutions. Mincrochem, J. 69: 13-19.

Yarnitzky, C., Wang, J. & Tian, B. 2000. Hand-held lead analyser. Talanta 51: 333-338.

Zen, J-M., Chung, H-H. & Kumar, A.S. 2000. Determination of lead (II) on a copper/mercury-plated screen-printed electrode. Analytica Chimica Acta421: 189-197.

Zen, J-M., Yang, C-C. & Kumar, A.S. 2002. Voltammetric behaviour and trace determination of Pb2+ at a mercury-free screen-printed silver electrode. Analytica Chimica Acta464: 229-235.

*Corresponding author; email: fairul@imr.gov.my

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