Title of article
HIGH DISCHARGE RATE ELECTRODEPOSITED ZINC ELECTRODE FOR USE IN ALKALINE MICROBATTERY
Author/Authors
HAIRIN, A.L. NOR International Islamic University Malaysia - Faculty of Engineering - Department of Manufacturing and Materials Engineering, Malaysia , OTHMAN, RAIHAN International Islamic University Malaysia - Faculty of Engineering - Department of Science in Engineering, Malaysia , ANI, MOHD HANAFI International Islamic University Malaysia - Faculty of Engineering - Department of Manufacturing and Materials Engineering, Malaysia , SAPUTRA, HENS Pusat Teknologi Industri Proses Badan Pengkajian dan Penerapan Teknologi (BPPT), Indonesia
From page
115
To page
122
Abstract
High discharge rate zinc electrode is prepared using the electrodeposition process. The electrolytic bath consists of zinc chloride as the metal source and ammonium chloride as the supporting electrolyte. The concentration of the supporting electrolyte is varied from zero until 4 M, while the concentration of zinc chloride is fixed at 2 M. The aim is to produce a porous zinc coating with an enhanced and intimate interfacial area per unit volume. These characteristics shall contribute towards reduced ohmic losses, improved active material utilization, and subsequently producing high rate capacity electrochemical cell. Nitrogen physisorption at 77 K is used to measure the BET surface area and pore volume density of the zinc electrodeposits. The electrodeposited zinc electrodes are then fabricated into alkaline zinc-air microbattery measuring 1 cm2 area x ca. 305 μm thick. The use of inorganic MCM-41 membrane separator enables the fabrication of a compact cell design. The quality of the electrodeposited zinc electrodes is gauged directly from the electrochemical performance of zinc-air cell. Zinc electrodeposits prepared from electrolytic bath of 2 M NH4Cl produces the highest discharge capacity.
Keywords
zinc electrodeposition , high discharge rate electrode , MCM , 41 separator , zinc , air cell , alkaline microbattery
Journal title
IIUM Engineering Journal
Journal title
IIUM Engineering Journal
Record number
2656065
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