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Sains Malaysiana 40(12)(2011): 1421–1427
Electrochemical Behaviour of Ni and Ni-PVC Electrodes for the Electroxidation of Ethanol (Tingkah Laku Elektrokimia Pengoksidaan Etanol Menggunakan Elektrod Ni dan Ni-PVC)
Mohd Syafiq Hamdan1, Norazzizi Nordin1, Siti Fathrita Mohd Amir1, Riyanto2 & Mohamed Rozali Othman1. * 1School of Chemical Sciences and Food Technology, Faculty of Science and Technology Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor D.E. Malaysia
2Universitas Islam Indonesia, Yogyakarta, Indonesia
Received: 2 December 2010 / Accepted: 16 May 2011
ABSTRACT
In this study, two nickel based electrodes were prepared; nickel foil and nickel-polyvinylchloride (Ni-PVC), in order to study their electrochemical behavior using cyclic voltammetry, CV and chronocoulometry, CC. Ni electrode was prepared from Ni metal foil while Ni-PVC electrode was prepared by mixing a weighed portion of Ni powder and PVC in THF solvent, swirled until the suspension was homogeneous and drying the suspension in an oven at 50oC for 3 h. The dry sample was then placed in a 1 cm diameter stainless steel mould and pressed at 10 ton/cm2. From CV data, Ni-PVC electrode showed a better electrochemical behavior compared to Ni metal foil electrode. The use of Ni-PVC electrode at higher concentration of supporting electrolyte (1.0 M KOH) was better than at lower concentration of the same supporting electrolyte in electroxidation of ethanol. In addition to acetic acid, the oxidation of ethanol also produced ethyl acetate and acetaldehyde.
Keywords: Acetic acid yield; chronocoulometry; cyclic voltammetry
ABSTRAK
Elektrod kepingan nikel dan nikel-polivinilklorid (Ni-PVC) telah diguna dalam kajian ini untuk mengkaji sifat elektrokimianya menggunakan kaedah Voltametri Berkitar (CV) dan Kronokoulometri (CC). Kepingan logam Ni telah dipotong mengikut saiz 1 × 1 cm2 untuk dijadikan elektrod Ni. Manakala elektrod Ni-PVC telah dibuat dengan menambahkan serbuk Ni dan PVC mengikut berat tertentu ke dalam tetrahidrofuran (THF), dikacau sehingga homogen kemudian dikeringkan di dalam oven pada suhu 50oC selama 3 jam. Seterusnya, serbuk dimasukkan ke dalam acuan dan dikenakan tekanan 10 ton/cm2 untuk membentuk pelet. Data CV yang diperoleh menunjukkan elektrod Ni-PVC mempunyai sifat elektrokimia lebih baik berbanding elektrod kepingan Ni. Semasa proses pengoksidaan elektrokimia etanol, penggunaan elektrod Ni-PVC dengan elektolit sokongan berkepekatan tinggi (1.0 M KOH) adalah lebih baik jika dibanding penggunaannya pada elektrolit sokongan berkepekatan rendah (0.1 M KOH). Selain asid asetik, etil asetat dan asetaldehid juga terhasil daripada pengoksidaan etanol.
Kata kunci: Hasil asid asetik; kronokoulometri; voltametri berkitar
REFERENCES
Bott, A.W. & Heineman, W.R. 2004. Chronocoulometry. Current Separations 20: 121-126 Casella, I.G., Guascito, M.R. & Sannazzaro, M.G. 1999. Voltammetric and XPS investigations of nickel hydroxide electrochemically dispersed on gold surface electrodes. Journal of Electroanalytical Chemistry 462: 202-210. Contreras, M.A.G., Valverde, S.M.F. & Garcia, J.R.V. 2007. Oxygen reduction reaction on cobalt-nickel alloys prepared by mechanical alloying. Journal of Alloys and Compounds 434-435: 522-524. Davila, M.M., Elizalde, M.P., Mattusch, J. & Wennrich, R. 2001. Study of the composite electrodes carbon-polyvinyl chloride and carbon-polyvinyl chloride/nafion by ex situ and in situ methods. Electrochimica Acta 46: 3189-3197. Grden, M. & Klimek, K. 2005. EQCM studies on oxidation of metallic nickel electrode in basic solution. Journal of Electroanalytical Chemistry 581: 122-131. Jafarian, M., Mahjani, M.G., Heli, H., Gobal, F. & Heydarpoor, M. 2003. Electrocatalytic oxidation of methane at nickel hydroxide modified nickel electrode in alkaline solution. Electrochemistry Communications 5: 184-188. Jimenez, M.M.D., Elizalde, M.P., Gonzalez, M. & Silva, R. 2000. Electrochemical behaviour of nickel-polyester composite electrodes. Electrochimica Acta 45: 4187-4193. Kibria, A.K.M. & Taradfar, S.A. 2002. Electrochemical studies of nickel-copper electrode for the oxygen evolution reaction (EOR). International Journal of Hydrogen Energy 27: 879-884. Kim, J.W. & Park, S.M. 1999. Electrochemical oxidation of ethanol at thermally prepared RuO2-modified electrodes in alkaline media. Journal of the Electrochemical Society 146: 1075-1080. Kissinger, P.T. & Heineman W.R. 1996. Laboratory Techniques in Electroanalytical Chemistry. 2nd edition, revised and expanded. New York: Marcel Dekker Inc. Lund, H. & Hammerich O. 2001. Organic electrochemistry. 4th ed. revised and expanded, New York: Marcel Dekker Inc. Medway, S.L., Lucas, C.A., Kowal, A., Nichols, R.J. & Johnson, D. 2006. In situ studies of the oxidation of nickel electrodes in alkaline solution. Journal of Electroanalytical Chemistry 587: 172-181. Mohandas, K.S. & Fray, D.J. 2004. FFC Cambridge process and removal of oxygen from metal-oxygen systems by molten salt electrolysis: an overview. Transactions of the Indian Institute of Metals 57: 579-592. Motheo, A.J., Tremiliosi-Filho, G., Gonzalez, E.R., Kokoh, K.B. & Leger, J.M. 2006. Electrooxidation of benzyl alcohol and benzaldehyde on a nickel oxy-hydroxide electrode in a filter-press type cell. Journal of Applied Electrochemistry 36: 1035-1041. Parpot, P., Pires, S.G. & Bettencourt, A.P. 2004. Electrocatalytic oxidation of D-galactose in alkaline medium. Journal of Electroanalytical Chemistry 566: 401-408. Pereira, M.G., Jimenez, M.D., Elizalde, M.P., Robledo, A.M. & Vante, N.A. 2004. Study of the electrooxidation of ethanol on hydrophobic electrodes by DEMS and HPLC. Electrochimica Acta 49: 3917-3925. Riyanto 2007. Kajian Reka Bentuk Elektrod Pengoksidaan Elektrokimia Etanol kepada Asid Asetik dalam Larutan Alkali. Tesis Doktor Falsafah. Universiti Kebangsaan Malaysia. Riyanto, Othman, M.R. & Salimon, J. 2008. Synthesis of acetic acid from ethanol by electroxidation technique using Ni-Cu-PVC electrode. ASEAN Journal for Science and Technology Development 25: 363-371. Seghiouer, A., Chevalet, J., Barhoun & Lantelme, F. 1998. Electrochemical oxidation of nickel in alkaline solutions: a voltammetric study and modeling. Journal of Electroanalytical Chemistry 442: 113-123. Shen, P.K. & Xu, C. 2006. Alcohol oxidation on nanocrystalline oxide Pd/C promoted electrocatalysts. Electrochemistry Communications 8: 184-188 Wang, J. 2000. Analytical Electrochemistry. 2nd edition, New York: John Wiley & Sons Inc. Yeo, I.H. & Johnson, D.C. 2001. Electrochemical response of small organic molecules at nickel-copper alloy electrodes. Journal of Electroanalytical Chemistry 495: 110-119. Yi, Q., Zhang, J., Huang, W. & Liu, X. 2007. Electrocatalytic oxidation of cyclohexanol on a nickel oxyhydroxide modified nickel electrode in alkaline solutions. Catalysis Communications 8: 1017-1022. Zoski, C.G. 2007. Handbook of Electrochemistry. Netherlands: Elsevier Science. Amsterdam.
*Corresponding author; email: rozali@ukm.my
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