Empowering Primary Batteries: Tailoring Ionic Conductivity in Methylcellulose Based Solid Polymer Electrolytes via Aluminium Nitrate Doping

Saranya Vijayan; Jayalakshmi Koliyoor

doi:10.1149/2162-8777/adeae2

Empowering Primary Batteries: Tailoring Ionic Conductivity in Methylcellulose Based Solid Polymer Electrolytes via Aluminium Nitrate Doping

Saranya Vijayan
, Ismayil
, Jayalakshmi Koliyoor

Research output: Contribution to journal › Article › peer-review

Abstract

Highlights Al(NO₃)₃ doped Methylcellulose SPEs shows enhanced ionic conductivity. FTIR analysis reveals polymer-salt complexation; XRD confirms structural changes. Impedance analysis showcases improved electrical properties with salt inclusion. 30 wt% salt electrolyte exhibits remarkable ionic conductivity at room temp. Primary battery performance analyzed; electrolyte system shows promising results.

Original language	English
Article number	073005
Journal	ECS Journal of Solid State Science and Technology
Volume	14
Issue number	7
DOIs	https://doi.org/10.1149/2162-8777/adeae2
Publication status	Published - 01-07-2025

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials

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10.1149/2162-8777/adeae2

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title = "Empowering Primary Batteries: Tailoring Ionic Conductivity in Methylcellulose Based Solid Polymer Electrolytes via Aluminium Nitrate Doping",

abstract = "Highlights Al(NO3)3 doped Methylcellulose SPEs shows enhanced ionic conductivity. FTIR analysis reveals polymer-salt complexation; XRD confirms structural changes. Impedance analysis showcases improved electrical properties with salt inclusion. 30 wt\% salt electrolyte exhibits remarkable ionic conductivity at room temp. Primary battery performance analyzed; electrolyte system shows promising results.",

author = "Saranya Vijayan and Ismayil and Jayalakshmi Koliyoor",

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AU - Koliyoor, Jayalakshmi

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PY - 2025/7/1

Y1 - 2025/7/1

N2 - Highlights Al(NO3)3 doped Methylcellulose SPEs shows enhanced ionic conductivity. FTIR analysis reveals polymer-salt complexation; XRD confirms structural changes. Impedance analysis showcases improved electrical properties with salt inclusion. 30 wt% salt electrolyte exhibits remarkable ionic conductivity at room temp. Primary battery performance analyzed; electrolyte system shows promising results.

AB - Highlights Al(NO3)3 doped Methylcellulose SPEs shows enhanced ionic conductivity. FTIR analysis reveals polymer-salt complexation; XRD confirms structural changes. Impedance analysis showcases improved electrical properties with salt inclusion. 30 wt% salt electrolyte exhibits remarkable ionic conductivity at room temp. Primary battery performance analyzed; electrolyte system shows promising results.

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Empowering Primary Batteries: Tailoring Ionic Conductivity in Methylcellulose Based Solid Polymer Electrolytes via Aluminium Nitrate Doping

Abstract

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