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HomeSolid State PhenomenaSolid State Phenomena Vol. 290Effect of Ionic Liquid BMIMNO3 to Chitosan-Starch...

Effect of Ionic Liquid BMIMNO₃ to Chitosan-Starch Blend Biopolymer Electrolyte System

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Abstract:

Chitosan-Starch blend biopolymer electrolyte system doped with different percentage of BMIMNO₃ was prepared via solution casting technique. The crystalinity of the system was calculated using data extracted from x-ray diffraction (XRD). The film was characterized by impedance spectroscopy HIOKI 3531-01 LCR Hi-Tester to measure its ionic conductivity over a wide range of frequency between 50Hz-5MHz and at temperatures between 298 K and 378 K. The result exhibit the advantages of ionic liquid as a charge carrier and also revealed that addition of 5% of BMIMNO₃ shows the highest conductivity of (2.26 +-0.96) x 10^-4 Scm^-1 .Conductivity-temperature relationship indicate that the system seems to obey the Vogel-Tamman-Fulcher (VTF) behaviour.

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Solid State Science and Technology VI

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Periodical:

Solid State Phenomena (Volume 290)

Pages:

177-182

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.290.177

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Online since:

April 2019

Authors:

Ahmad Hakimi Shaffie, M.S.M. Misenan, M.I.N. Isa, Azwani Sofia Ahmad Khiar*

Keywords:

Chitosan, Ionic Conductivity, Polymer Electrolyte, Starch, VTF Behaviour

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[1] M.N. Chai, and M.I.N. Isa, IJATER 2(2016) 36-39.

[2] F. Hassan, H. J. Woo, N. A. Aziz, M. Z. Kufian, & S. R. Majid, Ionics 19(2013) 483–489.

[3] K. Z. Hamdan & A. S. A. Khiar. Key Engineering Materials 594-595(2015) 818-822.

[4] S. Ummartyotin, & H. Manuspiya, Renewable & Sustainable Energy Rev. 41(2015), 402–412.

[5] A. Nawaz, R. Sharif, H. W. Rhee, & P. K. Singh, J. of Ind. & Eng. Chem. 33(2016), 381-384.

[6] R. Leones, F. Sentanin, L. C. Rodrigues, I. M. Marrucho, J. M. S. S. Esperança, A. Pawlicka, & M. M. Silva. Express Polymer Letters 6(2012) 1007–1016.

DOI: 10.3144/expresspolymlett.2012.106

[7] T. Winie, S. Ramesh, & A. K. Arof, Physica B: Condensed Matter, 404(2009), 4308–4311.

DOI: 10.1016/j.physb.2009.08.004

[8] S. R. Majid, & A. K. Arof, (2009). Polymers for Advanced Technologies, 20(2009), 524–528.

[9] M. H. Buraidah, & A. K. Arof, J. of Non-Crystalline Solids, 357(2011), 3261–3266.

DOI: 10.1016/j.jnoncrysol.2011.05.021

[10] N. E. A. Shuhaimi, N. A. Alias, S. R. Majid, A. K. Arof, Func. Materials Letters, 1(2008) 195–201.

[11] S. G.Rathod, R. F. Bhajantri, V. Ravindrachary, P. K. Pujari, & T. Sheela. J. of Adv. Dielectrics 4(2014) 1450033.

[12] N. N. A. Amran, N. S. A. Manan, & M. F. Z. Ionics 22(2016), 1647-1658.

[13] L.S. Ng, & A.A. Mohamad, J. Membr. Sci. 325 (2008) 653.

[14] M.Z.A. Yahya, & A. K. Arof, European Polymer Journal 39(2003) 897–902.

[15] M.Z.A. Yahya, & A. K. Arof, Carbohydrate Polymers 55(2004) 95–100.

[16] N.H Idris, H.B. Senin, A.K. Arof, Ionics 13(2007) 213–217.

[17] Y. Sudhakar & M. Selvakumar, Electrovhemical Acta 78(2012) 398-405.

[18] D. Yanming, R. Yonghong, W. Huiwu, Z. Yaging, B. Danxia, J. of Applied Polymer Science. 93(2004). 1553-1558.

[19] Y. M. Yusof, M. F. Shukur, H. A. Illias, & M. F. Z. Kadir, M. F. Z. Physica Scripta, 89(2014), 035701.

[20] A.S.A Khiar, & A.K. Arof, World Academy of Sc., Eng. and Techn. 59(2011) 11-25.

[21] M.F. Shukur, R. Ithnin, H.A. Illias, & M.F.Z. Kadir, 35 (2013), 1834-1841.

[22] M.F. Shukur, & M.F.Z. Kadir, Ionics 21(2014), 111-124.

[23] A.K. Arof, N.E.A Shuhaimi, N.A Alias, M.Z. Kufian, & S.R. Majid, J. of Solid State Electrochemistry, 14(2010), 2145–2152.

DOI: 10.1007/s10008-010-1050-8

[24] I.J. Shamsudin, A. Ahmad, N.H. Hassan, & H. Kaddami, Solid State Ionics 278(2015) 11–19.

DOI: 10.1016/j.ssi.2015.05.008

[25] K.S. Yap, Ph.D Thesis, University of Malaya, (2012).

[26] A.H. Shaffie & A.S.A. Khiar. AIP Conference Proceeedings (2018). AIP Conference Proceedings 1972(1):030011.

[27] K.M. Diederichsen, B. G. Hilda & B.D. McCloskey, Electrolytes. Macromolecules 50(2017) 3831-3840.

[28] M.A. Ramlli, & M.I. Isa, J. Phys. Chem. B. 120(2016) 11567-11573.

[29] M.H.A. Rahaman, M.U. Khandaker, Z.R. Khan, M.Z. Kufian, I.S. Noor, & A.K. Aro, Phys. Chem. 16(2014) 11527-11537.

DOI: 10.1039/c4cp01233j

[30] I.A. Fadzallah, S.R. Majid, M.A. Careem, & A.K. Arof, J. of Membrane Science, 463(2014) 65- 72.

DOI: 10.1016/j.memsci.2014.03.044

[31] M.N. Hafiza & M.I.N. Isa, Carbohydrate Polymers. Issue 3(2014). Accepted manuscript.

[32] N.H. Ahmad & M.I.N. Isa, Carbohydrate Polymers. 137(2015) 426-432.

[33] N.N.A. Aziz, N.K. Idris, & M.I.N. Isa, J. of the Physical Sciences. 5960(2010) 748-752.

[34] N.A. Hidayah, & M.I.N. ISA, J. of Eng. Sc. and Tec. 11(2016). 839-847.

[35] M.I.H. Sohaimy, & M.I.N Isa, (2016). Polymer Bulletin, 74(2016), 1371-1386.

[36] X. Baokou, & M. Anouti, J. of Physical Chemistry C. 119(2015). 970-979.

[37] P. Pradeepa, R.S. Edwin, G. Sowmya, J. Kalaiselvimary, & M.R Ramesh (2016). Mat. Sc. & Eng. B: Solid-State Mat. for Adv. Tech. 205(2016) 6-17.

[38] J.Z. Zheng, Y. Derong, F.Y. Yong, Electrochimica Acta, 59(2012) 14-22.

[39] M. Nádherná, J. Reiter, J. Moskon, R. Dominko, J. Power Sources 196 (2011) 7700.