화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.105, 414-426, January, 2022
DOI10.1016/j.jiec.2021.09.042  Export Citation
Design of non-faradaic EDLC from plasticized MC based polymer electrolyte with an energy density close to lead-acid batteries
Shujahadeen B. Aziz1, 2, †, Rebar T. Abdulwahid1, 3, Mohd F. Z. Kadir4, Hewa O. Ghareeb5, Tansir Ahamad6, 7, and Saad M. Alshehri6
  • 1Hameed Majid Advanced Polymeric Materials Research Lab., Physics Department, College of Science, University of Sulaimani, Qlyasan Street, Sulaimani 46001, Kurdistan Regional Government, Iraq
  • 2Department of Civil Engineering, College of Engineering, Komar University of Science and Technology, Sulaimani 46001, Kurdistan Regional Government, Iraq
  • 3Department of Physics, College of Education, University of Sulaimani, Old Campus, Sulaimani 46001, Iraq
  • 4Centre for Foundation Studies in Science, University of Malaya, Kuala Lumpur 50603, Malaysia
  • 5Department of Chemistry, College of Science, University of Sulaimani, Qlyasan Street, Sulaimani 46001, Kurdistan Regional Government, Iraq
  • 6Department of Chemistry, King Saud University, P.O. Box 2455, Riyadh 11451, Saudi Arabia
  • 7Department of Materials Science, Korea University, Seoul 02841, Republic of Korea
E-mail:
The investigation of biodegradable polymer electrolyte for energy device applications is of great importance as a suitable alternative to the conventional electrolytes. This paper explores the employment of plasticized methylcellulose (MC)-based polymer electrolytes for energy storage EDLC device application with an energy density (46.29 Wh kg-1) close enough to lead-acid batteries. The results have shown that the inclusion of plasticizer can enhance the ionic conductivity to 1.17 x 10-3 S cm-1. It was found that the prepared polymer electrolyte was stable up to 2.1 V, which is sufficient to be employed as electrolyte and separator in fabrication of electrical double layer capacitor (EDLC). Both te and ti values have been quantified from the TNM measurements, where the ti values for the electrolytes containing 32 wt.% and 40 wt. % of glycerol plasticizer have been found as 0.963 and 0.802, respectively. The performance of the assembled EDLC was assessed using both cyclic voltammetry (CV) and charge-discharging responses. The absence of redox peaks is evidenced from the CV. The value of initial specific capacitance (Cspe) of the fabricated EDLC is 411.52 F g-1. The results achieved in this study can be considered as a breakthrough in EDLC devices.
Keywords:Plasticized electrolyte;MC;NaI;EEC modeling;Transport properties;EDLC device
  1. Sownthari K, Suthanthiraraj SA, Express Polym. Lett., 7, 495 (2013)
  2. Aziz SB, Nofal MM, Abdulwahid RT, Ghareeb HO, Dannoun EMA, Abdullah RM, Hamsan MH, Kadir MFZ, Polymer, 13, 803 (2021)
  3. Karuppasamy K, Prasanna K, Ilango PR, Vikraman D, Bose R, Alfantazi A, Kim HS, J. Ind. Eng. Chem., 80, 258 (2019)
  4. Asnawi ASFM, Hamsan MH, Kadir FZ, Aziz SB, Matmin J, Yusof YM, Electrochim. Acta, 375 (2021)
  5. Kim DG, Kim YH, Maduwu RD, Jin HC, Moon DK, Kim JH, J. Ind. Eng. Chem., 65, 175 (2018)
  6. Alexandre SA, Silva GG, Santamaria R, Trigueiro JPC, Lavall RL, Electrochim. Acta, 299, 789 (2019)
  7. Aziz SB, Dannoun EMA, Hamsan MH, Ghareeb HO, Nofal MM, Karim WI, Asnawi ASFM, Hadi JM, Abdul ZFM, Polymers, 13, 930 (2021)
  8. Karuppasamy K, Kim DK, Kang YH, Prasanna K, Rhee HW, J. Ind. Eng. Chem., 52, 224 (2017)
  9. Iqbal S, Ahmad S, J. Ind. Eng. Chem., 60, 53 (2018)
  10. Bae JW, Park JY, Kwon OS, Lee CS, J. Ind. Eng. Chem., 51, 1 (2017)
  11. Kim DJ, Jo MJ, Nam SY, J. Ind. Eng. Chem., 21, 36 (2015)
  12. Asnawi ASFM, Aziz SB, Saeed SR, Yusof YM, Abdulwahid RT, Al-Zangana S, Karim WO, Kadir MFZ, Membranes, 10, 389 (2020)
  13. De Haro JC, Tatsi E, Fagiolari L, Bonomo M, Barolo C, Turri S, Bella F, Griffini G, ACS Sustain. Chem. Eng., 9, 8550 (2021)
  14. Galliano S, Bella F, Bonomo M, Giordano F, Gratzel M, Viscardi G, Hagfeldt A, Gerbaldi C, Barolo C, RRL Sol., 5, 200082 (2021)
  15. Wang Z, Hu M, Yu X, Li H, Wang Q, Li L, J. Membr. Sci., 637 (2021)
  16. Jeong CU, Umirov N, Jung DH, Seo DH, Lee BM, Cho BS, Kim SS, Choi JH, J. Power Sources, 506 (2021)
  17. Amici J, Torchio C, Versaci D, Dessantis D, Marchisio A, Caldera F, Bella F, Francia C, Bodoardo S, Polymers, 13, 1625 (2021)
  18. Piana G, Ricciardi M, Bella F, Cucciniello R, Proto A, Gerbaldi C, Chem. Eng. J., 382 (2020)
  19. Aziz SB, Asnawi ASFM, Mohammed PA, Abdulwahid RT, Yusof YM, Abdullah RM, Kadir MFZ, Polym. Test, 101 (2021)
  20. Chai MN, Isa MIN, J. Sustain. Sci. Manag., 2017, 42 (2017)
  21. Chong MY, University of Malaya, PhD thesis, 2017. http://studentsrepo.um.edu.my/7859/.
  22. Aziz SB, Asnawi ASFM, Abdulwahid RT, Ghareeb HO, Alshehri SM, Ahamad T, Hadi JM, Kadir MFZ, J. Mater. Res. Technol., 13, 933 (2021)
  23. You DJ, Yin Z, Ahn YK, Cho SH, Kim HJ, Shin DW, Yoo JY, Kim YS, J. Ind. Eng. Chem., 52, 1 (2017)
  24. Stepniak I, Galinski M, Nowacki K, Wysokowski M, Jakubowska P, Bazhenov VV, Leisegang T, Ehrlich H, Jesionowski T, RSC Adv., 6, 4007 (2016)
  25. Aziz SB, Iran. Polym. J., 22, 877 (2013)
  26. Polu AR, Rhee HW, Reddy MJK, Shanmugharaj AM, Ryu SH, Kim DK, J. Ind. Eng. Chem., 45, 68 (2017)
  27. Sudhakar YN, Selvakumar M, Bhat DK, Mater. Renew. Sustain Energy., 4, 1 (2015)
  28. Du BW, Hu SY, Singh R, Tsai TT, Lin CC, Ko FH, Materials, 10, 1026 (2017)
  29. Hamsan MH, Shukur MF, Aziz SB, Kadir MFZ, Bull. Mater. Sci., 42, 42 (2019)
  30. Chai MN, Isa MIN, J. Cryst. Process Technol., 3, 1 (2013)
  31. Weng R, Chen L, Lin S, Zhang H, Wu H, Liu K, Cao S, Huang L, Polymers, 9, 116 (2017)
  32. Aziz SB, Hamsan MH, Abdullah RM, Kadir MFZ, Molecules, 24, 2503 (2019)
  33. Taghizadeh MT, Seifi-aghjekohal P, Ultrason. Sonochem., 26, 265 (2015)
  34. Pinotti A, Garcia MA, Martino MN, Zaritzky NE, Food Hydrocolloids, 21, 66 (2007)
  35. Shuhaimi NEA, Teo LP, Majid SR, Arof AK, Synth. Met., 160, 1040 (2010)
  36. Aziz SB, Brza MA, Mishra K, et al., J. Mater. Res. Technol., 1 (2019).
  37. Zhang L, Zhao XS, Chem. Soc. Rev., 38, 2520 (2009)
  38. Mohd Abdah MAA, Azman NHN, Kulandaivalu S, Sulaiman Y, Mater. Des., 186 (2020)
  39. Hadjipaschalis I, Poullikkas A, Efthimiou V, Renew. Sust. Energ. Rev., 13, 1513 (2009)
  40. Lee DY, Ah GH, Ahn HJ, J. Ind. Eng. Chem., 52, 121 (2017)
  41. Guo J, Jiang J, Yang B, Solid. State. Electron., 150, 8 (2018)
  42. Xu M, Li D, Yan Y, Guo T, Pang H, Xue H, RSC Adv., 7, 43780 (2017)
  43. Aziz SB, Brza MA, Nofal MM, Abdulwahid RT, Hussen SA, Hussein AM, Karim WO, Materials, 13, 3675 (2020)
  44. Nicolau A, Nucci AM, Martini EMA, Samios D, Eur. Polym. J., 43, 2708 (2007)
  45. Nahm SH, J. Coatings Technol. Res., 3, 257 (2006)
  46. Mahato DK, Dutta A, Sinha TP, J. Mater. Sci., 45(24), 6757 (2010)
  47. Huggins RA, Ionics, 8, 300 (2002)
  48. Aziz SB, Abdullah RM, Kadir MFZ, Ahmed HM, Electrochim. Acta, 296, 494 (2019)
  49. Shukur MF, Ithnin R, Kadir MFZ, Electrochim. Acta, 136, 204 (2014)
  50. Teo LP, Buraidah MH, Nor AFM, Majid SR, Ionics, 18, 655 (2012)
  51. Rajendran S, Babu RS, Sivakumar P, J. Membr. Sci., 315(1-2), 67 (2008)
  52. Avellaneda CO, Vieira DE, Al-Kahlout A, Leite ER, Pawlicka A, Aegerter MA, Electrochim. Acta, 53(4), 1648 (2007)
  53. de Jonge JJ, van Zon A, de Leeuw SW, Solid State Ion., 147(3-4), 349 (2002)
  54. Aziz SB, Abidin ZHZ, J. Appl. Polym. Sci., 132, 1 (2015)
  55. Shukur MF, Kadir MFZ, Ionics, 21, 111 (2014)
  56. Shukur MF, Kadir MFZ, Electrochim. Acta, 158, 152 (2015)
  57. Arof AK, Amirudin S, Yusof SZ, Noor IM, Phys. Chem. Chem. Phys., 16, 1856 (2014)
  58. Brza M, Aziz SB, Saeed SR, Hamsan MH, Majid SR, Abdulwahid RT, Kadir MFZ, Abdullah RM, Membranes, 10, 381 (2020)
  59. Aziz SB, Hamsan MH, Brza MA, Kadir MFZ, Muzakir SK, Abdulwahid RT, J. Mater. Res. Technol., 9, 8355 (2020)
  60. Marf AS, Aziz SB, Abdullah RM, J. Mater. Sci. Mater. Electron. (2020).
  61. Yusof YM, Shukur MF, Hamsan MH, Jumbri K, Kadir MFZ, Ionics, 25, 5473 (2019)
  62. Aziz SB, Dannoun EMA, Hamsan MH, Abdulwahid RT, Mishra K, Nofal MM, Kadir MFZ, Membranes, 11, 289 (2021)
  63. Hamsan MH, Shukur MF, Kadir MFZ, Ionics, 23, 3429 (2017)
  64. Polu AR, Kumar R, Int. J. Polym. Mater. Polym. Biomater., 62, 76 (2013)
  65. Polu AR, Kumar R, Rhee HW, Ionics, 21, 125 (2015)
  66. Wang J, Zhao Z, Song S, Ma Q, Liu R, Polymers, 10, 1179 (2018)
  67. Pratap R, Singh B, Chandra S, J. Power Sources, 161(1), 702 (2006)
  68. Sampathkumar L, Selvin PC, Selvasekarapandian S, Perumal P, Chitra R, Muthukrishnan M, Ionics, 25, 1067 (2019)
  69. Kadir MFZ, Arof AK, Mater. Res. Innov., 15, s217 (2011)
  70. Noor NAM, Isa MIN, Int. J. Hydrog. Energy, 44(16), 8298 (2019)
  71. Jayalakshmi M, Balasubramanian K, Int. J. Electrochem. Sci., 3, 1196 (2008)
  72. Virya A, Lian K, Electrochem. Commun., 97, 77 (2018)
  73. Aziz SB, Brza MA, Hamsan HM, Kadir MFZ, Abdulwahid RT, Polym. Bull. (2020).
  74. Bin MF, Shukur A, Chitosan Blend Appl. Electrochem. Dev. (2015).
  75. Shuhaimi SNEA, Universiti Malaya, master thesis, 2011. http://studentsrepo.um.edu.my/1978/.
  76. Liew CW, Ramesh S, Arof AK, Int. J. Hydrog. Energy, 40(1), 852 (2015)
  77. Lim C, Teoh KH, Liew C, Ramesh S, Ionics, 20, 251 (2014)
  78. Liew CW, Ramesh S, Arof AK, Energy, 109, 546 (2016)
  79. Lim CS, Teoh KH, Liew CW, Ramesh S, Mater. Chem. Phys., 143(2), 661 (2014)
  80. Chong MY, Numan A, Liew CW, Ng HM, Ramesh K, Ramesh S, J. Phys. Chem. Solids, 117, 194 (2018)
  81. Liew CW, Ramesh S, Arof AK, Int. J. Hydrog. Energy, 39(6), 2953 (2014)
  82. Liew CW, Nanomater. Energy Devices, 1st Ed., CRC Press Taylor & Francis Group, 2017: p. 40. 10.1201/9781315153445.
  83. Azli AA, Manan NSA, Aziz SB, Kadir MFZ, Ionics (2020).
  84. Shuhaimi NEA, Teo LP, Woo HJ, Majid SR, Arof AK, Polym. Bull., 69(7), 807 (2012)
  85. Kumar MS, Bhat DK, Phys. B Condens. Matter., 404, 1143 (2009)
  86. Andres B, Dahlstrom C, Blomquist N, Norgren M, Olin H, Mater. Des., 141, 342 (2018)
  87. Lee J, Kim W, Kim W, ACS Appl. Mater. Interfaces, 6, 13578 (2014)
  88. Aziz SB, Hamsan MH, Nofal MM, San S, Abdulwahid RT, Saeed SR, Brza MA, Kadir MFZ, Mohammed SJ, Al-Zangana S, Polymers, 12, 1526 (2020)
  89. Azaceta E, Chavhan S, Rossi P, Paderi M, Fantini S, Ungureanu M, Miguel O, Grande HJ, Tena-Zaera R, Electrochim. Acta, 71, 39 (2012)
  90. Kwon YH, Kumar S, Bae J, Seo Y, Nanotechnology, 29 (2018)
  91. Aziz SB, Hamsan MH, Abdullah RM, Abdulwahid RT, Brza MA, Marif AS, Kadir MFZ, Ionics, 26, 1829 (2020)
  92. Kang J, Wen JZ, Jayaram SH, Yu AP, Wang XH, Electrochim. Acta, 115, 587 (2014)
  93. Yuhanees MY, University of Malaya, 2017. http://studentsrepo.um.edu.my/7494/.
  94. Liew C, Ramesh S, Carbohydr. Polym., 124, 222 (2015)
  95. Poonam K, Sharma A, Arora SK, J. Energy Storage., 21, 801 (2019)
  96. Yassine M, Fabris D, Energies, 10, 1340 (2017)
  97. Zhong C, Deng Y, Hu W, Qiao J, Zhang L, Zhang J, Chem. Soc. Rev., 44, 7484 (2015)