Affiliation:
1. University Malaysia Terengganu
Abstract
The present study aims to investigate the structural and ionic conductivity of carboxymethyl cellulose - ammonium chloride as proton conducting polymer electrolytes. The complexion of polymer electrolyte films has been confirmed via FTIR studies. The conductivity enhancement with the addition of ammonium chloride concentration was proved due to the increase in amorphous nature of the films as evidenced by XRD analysis. Impedance studies indicate that the highest ionic conductivity of 1.43 x 10-3 Scm-1 was observed with the addition of 16 wt.% ammonium chloride in polymer electrolyte system obtained at ambient temperature.
Publisher
Trans Tech Publications, Ltd.
Reference23 articles.
1. Chai, M.N. and Isa M.I.N. (2012). Investigation on The Conduction Mechanism of Carboxyl methylcellulose - Oleic Acid Natural Solid Polymer Electrolyte. IJATER, 2, 36 – 39.
2. Chai, M.N. & Isa, M.I.N. (2013). The Oleic Acid Composition Effect on the Carboxymethyl Cellulose Based Biopolymer Electrolyte. Crystallization Process and Technology, 3, 1-4.
3. Du, J.F., Bai, Y., Chu, W.Y. & Qiao, L.J. (2010).
4. Samsuddin A.S. & Isa, M.I.N. (2012). Characterization of carboxymethyl cellulose doped with DTAB as new types of biopolymer electrolytes. Bull. Mater Science, 35(7), 1123-1131.
5. M.I.N. Isa, S.R. Majid and A.K. Arof. (2006). Immittance studies of DBP plasticized salicylic acid doped PMMA based gel electrolytes. Materials Science Forum, 517, 97-100.
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