Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes
Since the introduction of solid polymer based electrolytes in 1973, numerous polymers are particularly interesting especially bio-polymer have been investigate (Kadir et al., 2014; Samsudin et al., 2012; Buraidah et al., 2011). The main interest in developing solid-state polymer electrolyte lies in...
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my.ump.umpir.176592020-10-27T07:15:30Z http://umpir.ump.edu.my/id/eprint/17659/ Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes Ahmad Salihin, Samsudin M. I. N., Isa Q Science (General) Since the introduction of solid polymer based electrolytes in 1973, numerous polymers are particularly interesting especially bio-polymer have been investigate (Kadir et al., 2014; Samsudin et al., 2012; Buraidah et al., 2011). The main interest in developing solid-state polymer electrolyte lies in the hope that such systems will avoid many of the problems encountered when using electrochemical devices with liquid constituents. The costly and rare raw materials that are required, along with expensive materials processing, make for steep barriers to overcome when it comes to power source development. In arrears to the fact given the development of plasticized solid bio-polymer electrolytes (SBEs) has been accomplished in this work by incorporating various composition of plasticizer with CMC-NH4Br via solution casting method. The plasticized biopolymer–salt complex ionic conduction and electrical properties of the SBEs have been analyzed through impedance measurement. The ionic conductivity at room temperature for the CMC-NH4Br SBEs system was achieved at ~10-4 S cm-1 when 25 wt. % NH4Br was added and were improved to (~ 10-3 S cm-1) with introducing of plasticizer in SBEs system. The temperature dependence of the prepared SBEs system exhibits Arrhenius behavior. The Jonschers power law was used to study the ac conductivity data and the conduction mechanism studies shown the highest conducting CMC SBEs system can be best represented by OLPT model (PEG), SPH model (glycerol) and QMT model (EC). 2017 Conference or Workshop Item PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/17659/1/Investigation%20on%20electrical%20conduction%20mechanism%20of%20plasticized%20carboxymethyl%20cellulose-NH4Br%20solid%20bio-polymer%20electrolytes.pdf pdf en http://umpir.ump.edu.my/id/eprint/17659/7/Investigation%20on%20electrical%20conduction%20mechanism%20of%20plasticized%20carboxymethyl%20cellulose-NH4Br%20solid%20bio-polymer%20electrolytes%201.pdf Ahmad Salihin, Samsudin and M. I. N., Isa (2017) Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes. In: The 5th International Symposium on Fundamental and Applied Sciences, 29-31 March 2017 , Nagoya, Japan. pp. 1-3.. (Unpublished) |
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Q Science (General) Ahmad Salihin, Samsudin M. I. N., Isa Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes |
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Since the introduction of solid polymer based electrolytes in 1973, numerous polymers are particularly interesting especially bio-polymer have been investigate (Kadir et al., 2014; Samsudin et al., 2012; Buraidah et al., 2011). The main interest in developing solid-state polymer electrolyte lies in the hope that such systems will avoid many of the problems encountered when using electrochemical devices with liquid constituents. The costly and rare raw materials that are required, along with expensive materials processing, make for steep barriers to overcome when it comes to power source development. In arrears to the fact given the development of plasticized solid bio-polymer electrolytes (SBEs) has been accomplished in this work by incorporating various composition of plasticizer with CMC-NH4Br via solution casting method. The plasticized biopolymer–salt complex ionic conduction and electrical properties of the SBEs have been analyzed through impedance measurement. The ionic conductivity at room temperature for the CMC-NH4Br SBEs system was achieved at ~10-4 S cm-1 when 25 wt. % NH4Br was added and were improved to (~ 10-3 S cm-1) with introducing of plasticizer in SBEs system. The temperature dependence of the prepared SBEs system exhibits Arrhenius behavior. The Jonschers power law was used to study the ac conductivity data and the conduction mechanism studies shown the highest conducting CMC SBEs system can be best represented by OLPT model (PEG), SPH model (glycerol) and QMT model (EC). |
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Conference or Workshop Item |
author |
Ahmad Salihin, Samsudin M. I. N., Isa |
author_facet |
Ahmad Salihin, Samsudin M. I. N., Isa |
author_sort |
Ahmad Salihin, Samsudin |
title |
Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes |
title_short |
Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes |
title_full |
Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes |
title_fullStr |
Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes |
title_full_unstemmed |
Investigation on Electrical Conduction Mechanism of Plasticized Carboxymethyl Cellulose-NH4Br Solid Bio-Polymer Electrolytes |
title_sort |
investigation on electrical conduction mechanism of plasticized carboxymethyl cellulose-nh4br solid bio-polymer electrolytes |
publishDate |
2017 |
url |
http://umpir.ump.edu.my/id/eprint/17659/1/Investigation%20on%20electrical%20conduction%20mechanism%20of%20plasticized%20carboxymethyl%20cellulose-NH4Br%20solid%20bio-polymer%20electrolytes.pdf http://umpir.ump.edu.my/id/eprint/17659/7/Investigation%20on%20electrical%20conduction%20mechanism%20of%20plasticized%20carboxymethyl%20cellulose-NH4Br%20solid%20bio-polymer%20electrolytes%201.pdf http://umpir.ump.edu.my/id/eprint/17659/ |
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