Immobilization of Glucose Oxidase on Modified-Carbon-Paste-Electrodes for Microfuel Cell

https://doi.org/10.22146/ijc.21183

Laksmi Ambarsari(1*), Inda Setyawati(2), Rini Kurniasih(3), Popi Asri Kurniatin(4), Akhiruddin Maddu(5)

(1) Department of Biochemistry, Faculty of Mathematics and Natural Sciences, Bogor Agricultural University, Kampus IPB Dramaga, Bogor 16680, West Java
(2) Department of Biochemistry, Faculty of Mathematics and Natural Sciences, Bogor Agricultural University, Kampus IPB Dramaga, Bogor 16680, West Java
(3) Department of Biochemistry, Faculty of Mathematics and Natural Sciences, Bogor Agricultural University, Kampus IPB Dramaga, Bogor 16680, West Java
(4) Department of Biochemistry, Faculty of Mathematics and Natural Sciences, Bogor Agricultural University, Kampus IPB Dramaga, Bogor 16680, West Java
(5) Department of Physics, Faculty of Mathematics and Natural Sciences, Bogor Agricultural University, Kampus IPB Dramaga, Bogor 16680, West Java
(*) Corresponding Author

Abstract


Glucose oxidase (GOx) is being developed for many applications such as an implantable fuel cell, due to its attractive property of operating under physiological conditions. This study reports the functional immobilization of glucose oxidase onto polyaniline-nanofiber-modified-carbon-paste-electrodes (GOx/MCPE) as bioanodes in fuel cell applications. In particular, GOx is immobilized onto the electrode surface via a linker molecule (glutaraldehyde). Polyaniline, synthesized by the interfacial polymerization method, produces a morphological form of nanofibers (100-120 nm) which have good conductivity. The performance of the polyaniline-modified-carbon-paste-electrode (MCPE) was better than the carbon- paste-electrode (CPE) alone. The optimal pH and temperature of the GOx/MCPE were 4.5 (in 100 mM acetate buffer) and 65 °C, respectively. The GOx/MCPE exhibit high catalytic performances (activation energy 16.4 kJ mol-1), have a high affinity for glucose (Km value 37.79 µM) and can have a maximum current (Imax) of 3.95 mA. The sensitivity of the bioelectrode also was high at 57.79 mA mM-1 cm-2.

Keywords


biosensor; carbon-paste-electrode; glucose oxidase; glutaraldehyde; nano-fiber polyaniline

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References

[1] Falk, M., Blum, Z., and Shleev, S., 2012, Electrochim. Acta, 82, 191–202.

[2] Yamamoto, K., Matsumoto, T., Shimada S., Tanaka T., and Kondo, A., 2013, New Biotechnol., 30 (5), 531–535.

[3] Heller, A., 2004, Phys. Chem. Chem. Phys., 6 (2), 209–216.

[4] du Toit, H., and Di Lorenzo, M., 2014, Electrochim. Acta, 138, 86–92.

[5] Bullen, R.A., Arnot, T.C., Lakeman, J.B., and Walsh, F.C., 2006, Biosens. Bioelectron., 21 (11), 2015–2045.

[6] Logan, B.E., Hamelers, B., Rozendal, R., Schröder, U., Keller, J., Freguia, S., Aelterman, P., Willy Verstraete, W., and Rabaey, K., 2006, Environ. Sci. Technol., 40, 5181–5192.

[7] Morrin, A., Ngamna, O., Killard, A.J., Moulton, S.E., Smyth, M.R., and Wallace, G.G., 2005, Electroanalysis, 17 (5-6), 423–430.

[8] Huang, J., and Kaner, R.B., 2006, Chem. Commun., 4, 367–376.

[9] Çolak, Ö., Halit Arslan, H., Zengin, H., and Zengin, G., 2012, Int. J. Electrochem. Sci., 7 (1), 6988–6997.

[10] Lineweaver, H., and Burk, D., 1934, J. Am. Chem. Soc., 56 (3), 658–666.

[11] Virji, S., Kojima, R., Fowler, J.D., Villanueva, J.G., Kaner, R.B., and Weiller, B.H., 2009, Nano Res., 2 (2), 135–142.

[12] Huang, J., and Kaner, R.B., 2005, Angew. Chem. Int. Ed., 43 (43), 5817–5821.

[13] Reda, S.M., and Al-Ghannam, S.M., 2012, Adv. Mater. Phys. Chem., 2, 75–81.

[14] Zhu, J., Chen, M., Qu, H., Zhang, X., Wei, H., Luo, Z., Colorado, H.A., Wei, S., and Guo, Z., 2012, Polymer, 53 (25), 5953–5964.

[15] Keyhanpour, Mohaghegh, S.M.S., and Jamshidi, A., 2012, J. Biosens. Bioelectron., 3 (1), 1–7.

[16] Fabiano, S., Tran-Minh, C., Piro, B., Dang, L.A., Pham, M.C., and Vittori, O., 2002, Mater. Sci. Eng., C, 21 (1-2), 61–67.

[17] Fatoni, A., Numnuam, A., Kanatharana, P., Limbut, W., Thammakhet, C., and Thavarungkul, P., 2013, Sens. Actuators, B, 185, 725–734.

[18] Rogers, M.J., and Brandt, K.G., 1971, Biochemistry, 10 (25), 4624–4630.



DOI: https://doi.org/10.22146/ijc.21183

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