Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference number
High ion transference number polymer blend electrolytes of chitosan (CS):poly (ethylene oxide) (PEO):LiClO4 systems were synthesized using solution cast technique. The XRD analysis indicated that the crystalline peaks of CS vanished in CS:PEO host blend polymer. The intensity of the hump observed in...
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Elsevier
2019-12-01
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| Series: | Results in Physics |
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doaj-1ae012106d484182bb0ab24d528d96aa2020-11-24T21:56:33ZengElsevierResults in Physics2211-37972019-12-0115Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference numberShujahadeen B. Aziz0M.H. Hamsan1M.A. Brza2M.F.Z. Kadir3Rebar T. Abdulwahid4Hewa O. Ghareeb5H.J. Woo6Advanced Polymeric Materials Research Lab., Department of Physics, College of Science, University of Sulaimani, Qlyasan Street, Sulaimani, Kurdistan Regional Government, Iraq; Komar Research Center (KRC), Komar University of Science and Technology, Kurdistan Regional Government, Sulaimani 46001, Iraq; Corresponding author at: Advanced Polymeric Materials Research Lab., Department of Physics, College of Science, University of Sulaimani, Qlyasan Street, Sulaimani, Kurdistan Regional Government, Iraq.Centre for Foundation Studies in Science, University of Malaya, Kuala Lumpur, MalaysiaFaculty of Engineering, International Islamic University of Malaysia, Kuala Lumpur, Gombak, MalaysiaCentre for Foundation Studies in Science, University of Malaya, Kuala Lumpur, MalaysiaDepartment of Physics, College of Education, University of Sulaimani, Kurdistan Regional Government, Old Campus, Sulaimani, IraqDepartment of Chemistry, College of Science, University of Sulaimani, Kurdistan Regional Government, Qlyasan Street, Sulaimani, IraqCentre for Ionics, Faculty of Science, University of Malaya, Kuala Lumpur, MalaysiaHigh ion transference number polymer blend electrolytes of chitosan (CS):poly (ethylene oxide) (PEO):LiClO4 systems were synthesized using solution cast technique. The XRD analysis indicated that the crystalline peaks of CS vanished in CS:PEO host blend polymer. The intensity of the hump observed in CS:PEO blend film decreased upon addition of LiClO4 salt. The FTIR study revealed the complex formation between the CS:PEO and added salt through the shifting and lessening in intensity of the FTIR bands corresponding to the functional groups. The bulk resistance estimated from the impedance plots decreased with increasing salt concentration. The maximum DC conductivity was found to be 7.34 × 10−4 S cm−1 for CS:PEO incorporated with 40 wt% of LiCLO4 salt. The electrical equivalent circuit (EEC) model has been carried out for selected samples to clarify the common picture of the electrical properties of the system. It has been verified via transference number analysis (TNM) that the transport mechanism in CS:PEO:LiClO4 electrolyte is predominantly ionic in nature with tion = 0.993 and tel = 0.007. The high ion transference number and high DC conductivity emphasized the possibility of the samples for electrochemical device application. From linear sweep voltammetry (LSV) investigation, CS:PEO:LiClO4 electrolyte was found to be electrochemically constant as the voltage sweep linearly up to 2.24 V. The CV curve covered most of the area of the current–potential plot with no redox peaks. The DC conductivity value, TNM and LSV results revealed the availability of the samples for electrical double layer capacitor (EDLC) application. The existence of charges double-layer in the fabricated EDLC was proven from cyclic voltammetry (CV). EDLC showed a consistent performance of specific capacitance (6.88 F g−1), energy density (0.94 Wh kg−1) and power density (305 W kg−1) for complete 100 cycles at a current density of 0.5 mA cm−2. Keywords: Polymer blend electrolytes, XRD and FTIR study, TNM and LSV analysis, Cyclic voltammetry, EDLChttp://www.sciencedirect.com/science/article/pii/S2211379719318108 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Shujahadeen B. Aziz M.H. Hamsan M.A. Brza M.F.Z. Kadir Rebar T. Abdulwahid Hewa O. Ghareeb H.J. Woo |
| spellingShingle |
Shujahadeen B. Aziz M.H. Hamsan M.A. Brza M.F.Z. Kadir Rebar T. Abdulwahid Hewa O. Ghareeb H.J. Woo Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference number Results in Physics |
| author_facet |
Shujahadeen B. Aziz M.H. Hamsan M.A. Brza M.F.Z. Kadir Rebar T. Abdulwahid Hewa O. Ghareeb H.J. Woo |
| author_sort |
Shujahadeen B. Aziz |
| title |
Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference number |
| title_short |
Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference number |
| title_full |
Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference number |
| title_fullStr |
Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference number |
| title_full_unstemmed |
Fabrication of energy storage EDLC device based on CS:PEO polymer blend electrolytes with high Li+ ion transference number |
| title_sort |
fabrication of energy storage edlc device based on cs:peo polymer blend electrolytes with high li+ ion transference number |
| publisher |
Elsevier |
| series |
Results in Physics |
| issn |
2211-3797 |
| publishDate |
2019-12-01 |
| description |
High ion transference number polymer blend electrolytes of chitosan (CS):poly (ethylene oxide) (PEO):LiClO4 systems were synthesized using solution cast technique. The XRD analysis indicated that the crystalline peaks of CS vanished in CS:PEO host blend polymer. The intensity of the hump observed in CS:PEO blend film decreased upon addition of LiClO4 salt. The FTIR study revealed the complex formation between the CS:PEO and added salt through the shifting and lessening in intensity of the FTIR bands corresponding to the functional groups. The bulk resistance estimated from the impedance plots decreased with increasing salt concentration. The maximum DC conductivity was found to be 7.34 × 10−4 S cm−1 for CS:PEO incorporated with 40 wt% of LiCLO4 salt. The electrical equivalent circuit (EEC) model has been carried out for selected samples to clarify the common picture of the electrical properties of the system. It has been verified via transference number analysis (TNM) that the transport mechanism in CS:PEO:LiClO4 electrolyte is predominantly ionic in nature with tion = 0.993 and tel = 0.007. The high ion transference number and high DC conductivity emphasized the possibility of the samples for electrochemical device application. From linear sweep voltammetry (LSV) investigation, CS:PEO:LiClO4 electrolyte was found to be electrochemically constant as the voltage sweep linearly up to 2.24 V. The CV curve covered most of the area of the current–potential plot with no redox peaks. The DC conductivity value, TNM and LSV results revealed the availability of the samples for electrical double layer capacitor (EDLC) application. The existence of charges double-layer in the fabricated EDLC was proven from cyclic voltammetry (CV). EDLC showed a consistent performance of specific capacitance (6.88 F g−1), energy density (0.94 Wh kg−1) and power density (305 W kg−1) for complete 100 cycles at a current density of 0.5 mA cm−2. Keywords: Polymer blend electrolytes, XRD and FTIR study, TNM and LSV analysis, Cyclic voltammetry, EDLC |
| url |
http://www.sciencedirect.com/science/article/pii/S2211379719318108 |
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