Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes
This paper focuses on the effect of lithium triflate (LiCF3SO3) on the structural and conduction properties of lauroyl (L)-chitosan/poly(metylmethacryalate) (PMMA)-based polymer electrolytes. Films of L-chitosan/PMMA blends and its complexes were prepared using a solution-casting technique. The ioni...
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my.usim-91842015-08-25T03:33:52Z Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes A.S.A, Khiar S.M., Radzi N.A., Razak conductivity FTIR; L-chitosan PMMA; polymer electrolytes This paper focuses on the effect of lithium triflate (LiCF3SO3) on the structural and conduction properties of lauroyl (L)-chitosan/poly(metylmethacryalate) (PMMA)-based polymer electrolytes. Films of L-chitosan/PMMA blends and its complexes were prepared using a solution-casting technique. The ionic conductivity of the system was measured over a wide range of frequency between 50 Hz-1 MHz. Impedance plot for the samples demonstrates two well-defined regions. The disappearance of the high frequency semicircular region led to a conclusion that the current carriers are ions. Sample with 30 wt% of LiCF3SO3 showed the highest conductivity of 7.59 ± 3.64 × 10-4 Scm-1 at room temperature. This is consistent with the results obtained from infrared spectroscopy. © 2014 2015-08-25T03:33:52Z 2015-08-25T03:33:52Z 2014 Conference Paper 1542-1406 http://ddms.usim.edu.my/handle/123456789/9184 en_US Taylor and Francis Inc. |
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conductivity FTIR; L-chitosan PMMA; polymer electrolytes A.S.A, Khiar S.M., Radzi N.A., Razak Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes |
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This paper focuses on the effect of lithium triflate (LiCF3SO3) on the structural and conduction properties of lauroyl (L)-chitosan/poly(metylmethacryalate) (PMMA)-based polymer electrolytes. Films of L-chitosan/PMMA blends and its complexes were prepared using a solution-casting technique. The ionic conductivity of the system was measured over a wide range of frequency between 50 Hz-1 MHz. Impedance plot for the samples demonstrates two well-defined regions. The disappearance of the high frequency semicircular region led to a conclusion that the current carriers are ions. Sample with 30 wt% of LiCF3SO3 showed the highest conductivity of 7.59 ± 3.64 × 10-4 Scm-1 at room temperature. This is consistent with the results obtained from infrared spectroscopy. © 2014 |
format |
Conference Paper |
author |
A.S.A, Khiar S.M., Radzi N.A., Razak |
author_facet |
A.S.A, Khiar S.M., Radzi N.A., Razak |
author_sort |
A.S.A, Khiar |
title |
Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes |
title_short |
Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes |
title_full |
Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes |
title_fullStr |
Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes |
title_full_unstemmed |
Effect of LiCF3SO3 on L-chitosan/PMMA blend polymer electrolytes |
title_sort |
effect of licf3so3 on l-chitosan/pmma blend polymer electrolytes |
publisher |
Taylor and Francis Inc. |
publishDate |
2015 |
url |
http://ddms.usim.edu.my/handle/123456789/9184 |
_version_ |
1645152558497398784 |