S. Selvalakshmi scite author profile

A new polymer electrolyte based on the biopolymer Agar-Agar doped with ammonium thiocyanate (NH 4 SCN) has been prepared and characterized by FTIR analysis, X-ray diffraction measurements, AC impedance spectroscopy, transference number measurements, and DSC analysis. The Fourier transform infrared analysis confirms the complex formation between agar and NH 4 SCN. The amorphous nature of the polymer electrolyte has been revealed from X-ray diffraction analysis. The highest ionic conductivity has been observed for the sample of composition 1:1 between Agar and NH 4 SCN. As a function of temperature, the ionic conductivity of this sample exhibits Arrhenius behavior increasing from 1.03 3 10 23 S cm 21 at ambient temperature to 3.16 3 10 23 S cm 21 at 343 K. The transference number has been estimated by the dc polarization method, and it has been proven that the conducting species are predominantly cations. Using the highest conductivity polymer electrolyte, solid state electrochemical cell has been fabricated and cell parameters are reported.

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Characterization of blend polymer PVA-PVP complexed with ammonium thiocyanate

Premalatha¹,

Vijaya²,

Selvasekarapandian

et al. 2016

Ionics

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Investigations on proton conducting biopolymer membranes based on tamarind seed polysaccharide incorporated with ammonium thiocyanate

Premalatha

Mathavan²,

Selvasekarapandian

et al. 2016

Journal of Non-Crystalline Solids

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Study on NH4I composition effect in agar–agar-based biopolymer electrolyte

Selvalakshmi¹,

Mathavan²,

Selvasekarapandian³

et al. 2017

Ionics

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Incorporation of NH4Br in Tamarind Seed Polysaccharide biopolymer and its potential use in electrochemical energy storage devices

Premalatha¹,

Mathavan²,

Selvasekarapandian

et al. 2017

Organic Electronics

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S. Selvalakshmi

Biopolymer agar‐agar doped with NH₄SCN as solid polymer electrolyte for electrochemical cell application

Characterization of blend polymer PVA-PVP complexed with ammonium thiocyanate

Investigations on proton conducting biopolymer membranes based on tamarind seed polysaccharide incorporated with ammonium thiocyanate

Study on NH4I composition effect in agar–agar-based biopolymer electrolyte

Incorporation of NH4Br in Tamarind Seed Polysaccharide biopolymer and its potential use in electrochemical energy storage devices

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About

S. Selvalakshmi

Biopolymer agar‐agar doped with NH4SCN as solid polymer electrolyte for electrochemical cell application

Characterization of blend polymer PVA-PVP complexed with ammonium thiocyanate

Investigations on proton conducting biopolymer membranes based on tamarind seed polysaccharide incorporated with ammonium thiocyanate

Study on NH4I composition effect in agar–agar-based biopolymer electrolyte

Incorporation of NH4Br in Tamarind Seed Polysaccharide biopolymer and its potential use in electrochemical energy storage devices

Contact Info

Product

Resources

About

Biopolymer agar‐agar doped with NH₄SCN as solid polymer electrolyte for electrochemical cell application