Characterization of biopolymer electrolytes based on cellulose acetate with magnesium perchlorate (Mg(ClO4)2) for energy storage devices
Magnesium ion conducting biopolymer electrolytes have been prepared using cellulose acetate and different wt. % of magnesium perchlorate with DMF as a solvent by the solution casting technique. Asprepared membranes were subjected to different characterization techniques such as XRD, FTIR, DSC, ac...
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| Main Authors: | , , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Elsevier
2019
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| Subjects: | |
| Online Access: | http://repository.vnu.edu.vn/handle/VNU_123/67719 https://doi.org/10.1016/j.jsamd.2019.04.006 |
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| Institution: | Vietnam National University, Hanoi |
| Language: | English |
| Summary: | Magnesium ion conducting biopolymer electrolytes have been prepared using cellulose acetate and
different wt. % of magnesium perchlorate with DMF as a solvent by the solution casting technique. Asprepared
membranes were subjected to different characterization techniques such as XRD, FTIR, DSC,
ac impedance analysis and transference number measurement. The amorphous/crystalline nature of the
prepared biopolymers was studied by using XRD. FTIR study has revealed the formation of complexes
between the cellulose acetate and the magnesium perchlorate. Glass transition temperatures for the
biopolymer electrolytes were found using a differential scanning calorimeter. From the ac impedance
analysis, the ionic conductivity was calculated. The biopolymer membrane (40%CA: 60% Mg (ClO4)2) has
shown the highest conductivity of 4.05 10 4 S/cm at room temperature. The ionic transference number
of Mg2þ was found as 0.31 by the Evan's method. The electrochemical stability of 3.58 V has been
observed for the 40%CA:60%Mg(ClO4)2 biopolymer membrane by the linear sweep voltammetry study.
The Mgþ ion primary battery has been constructed using the highest ionic conducting biopolymer
membrane. The performance of the battery was studied and the open circuit voltage of the battery was
found as 1.9 V |
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