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Electrical Conduction Mechanism in Solid Polymer Electrolytes: New Concepts to Arrhenius Equation

  • Aziz S
  • Abidin Z
Journal of Soft Matter (2013) 2013 1-8
DOI: 10.1155/2013/323868
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Abstract

Solid polymer electrolytes based on chitosan NaCF 3 SO 3 have been prepared by the solution cast technique. X-ray diffraction shows that the crystalline phase of the pure chitosan membrane has been partially disrupted. The fourier transform infrared (FTIR) results reveal the complexation between the chitosan polymer and the sodium triflate (NaTf) salt. The dielectric constant and DC conductivity follow the same trend with NaTf salt concentration. The increase in dielectric constant at different temperatures indicates an increase in DC conductivity. The ion conduction mechanism follows the Arrhenius behavior. The dependence of DC conductivity on both temperature and dielectric constant ( σ d c ( T , ε ′ ) = σ 0 e − E a / K B T ) is also demonstrated.

Figures

  • Figure 1: X-ray diffraction pattern of pure NaTf.
  • Figure 3: Coherence length of the chitosan:NaTf samples at 2𝜃∘ = 21∘.
  • Figure 2: X-ray diffraction patterns of (a) CS0, (b) CS2, (c) CS4, (d) CS6, (e) CS8, and (f) CS10.
  • Table 1: Assignments of FTIR bands for chitosan:NaTf solid electrolytes.
  • Figure 4: FTIR spectra of (i) CS0 (pure chitosan), (ii) CS2, (iii) CS4, (iv) CS6, (v) CS8, and (vi) CS10 in the region (a) 700 cm−1 to 1300 cm−1, (b) 1400 cm−1 to 1800 cm−1, and (c) 3000 cm−1 to 3800 cm−1.
  • Figure 6: The DC ionic conductivity of chitosan with various concentrations of NaTf.
  • Figure 5: Compositional dependence of dielectric constant for (a) CS0, (b) CS2, (c) CS4, (d) CS6, (e) CS8, and (f) CS10.
  • Figure 7: Dielectric constant (at 5 kHz) of chitosan with various concentrations of NaTf.

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APA

Aziz, S. B., & Abidin, Z. H. Z. (2013). Electrical Conduction Mechanism in Solid Polymer Electrolytes: New Concepts to Arrhenius Equation. Journal of Soft Matter, 2013, 1–8. https://doi.org/10.1155/2013/323868

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