Understanding the ion conductivity of self-standing poly-[ethylene oxide] composite films through non Fickian diffusion mediated water uptake phenomena

Anamika Das; Madhumita Mukhopadhyay; Jayanta Mukhopadhyay; Shweta Mishra; Soumyaditya Sutradhar; Anwita Sarkar; Goutam Kulsi; Satarupa Biswas; Moumita Mukherjee

doi:10.1007/s10965-024-04105-1

Understanding the ion conductivity of self-standing poly-[ethylene oxide] composite films through non Fickian diffusion mediated water uptake phenomena

Anamika Das, Madhumita Mukhopadhyay^*, Jayanta Mukhopadhyay, Shweta Mishra, Soumyaditya Sutradhar, Anwita Sarkar, Goutam Kulsi, Satarupa Biswas, Moumita Mukherjee

^*Corresponding author for this work

School of Chemistry

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

Abstract

Understanding the mechanism towards interaction of water with polymer composite is of significance in the arena of solid-state device application, biomaterial science etc. A systematic research work is presented on the swelling behaviour and its influence towards the ionic conduction of poly [ethylene oxide] (PEO) -salt films. The influence of salts (viz. NH₄I and KBr termed as PSN- & PSK-series) on the diffusion trait of polymer is analysed using non-Fickian python programming. The presence of ions and its polarizability behaviour influences the aqueous equilibration, number density of bounded and free water molecules along with the extent of cross linkage. The contribution of osmotic pressure tends to balance the dynamic non-covalent interactions thereby enhancing the diffusion driven ionic conduction (10^–3 S.cm⁻¹) process of PSK-films. Non Fickian diffusion is also found to accelerate the ionic conduction of PSK-series to 10^–2 S.cm⁻¹. The dielectric relaxation and long-term endurance (18500 h) establish the stability and applicability of such functionalized films as ionic electrolytes, membranes etc.

Original language	English
Article number	268
Number of pages	16
Journal	Journal of Polymer Research
Volume	31
Issue number	9
DOIs	https://doi.org/10.1007/s10965-024-04105-1
Publication status	Published - 29 Aug 2024

Keywords

Polymer composite
Poly [ethylene oxide]
Non-Fickian diffusion
Diffusion coefficients
Equilibrium water uptake
Ionic conductivity

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10.1007/s10965-024-04105-1

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Das, A., Mukhopadhyay, M., Mukhopadhyay, J., Mishra, S., Sutradhar, S., Sarkar, A., Kulsi, G., Biswas, S., & Mukherjee, M. (2024). Understanding the ion conductivity of self-standing poly-[ethylene oxide] composite films through non Fickian diffusion mediated water uptake phenomena. Journal of Polymer Research, 31(9), Article 268. https://doi.org/10.1007/s10965-024-04105-1

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abstract = "Understanding the mechanism towards interaction of water with polymer composite is of significance in the arena of solid-state device application, biomaterial science etc. A systematic research work is presented on the swelling behaviour and its influence towards the ionic conduction of poly [ethylene oxide] (PEO) -salt films. The influence of salts (viz. NH4I and KBr termed as PSN- & PSK-series) on the diffusion trait of polymer is analysed using non-Fickian python programming. The presence of ions and its polarizability behaviour influences the aqueous equilibration, number density of bounded and free water molecules along with the extent of cross linkage. The contribution of osmotic pressure tends to balance the dynamic non-covalent interactions thereby enhancing the diffusion driven ionic conduction (10–3 S.cm−1) process of PSK-films. Non Fickian diffusion is also found to accelerate the ionic conduction of PSK-series to 10–2 S.cm−1. The dielectric relaxation and long-term endurance (18500 h) establish the stability and applicability of such functionalized films as ionic electrolytes, membranes etc.",

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author = "Anamika Das and Madhumita Mukhopadhyay and Jayanta Mukhopadhyay and Shweta Mishra and Soumyaditya Sutradhar and Anwita Sarkar and Goutam Kulsi and Satarupa Biswas and Moumita Mukherjee",

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AU - Das, Anamika

AU - Mukhopadhyay, Madhumita

AU - Mukhopadhyay, Jayanta

AU - Mishra, Shweta

AU - Sutradhar, Soumyaditya

AU - Sarkar, Anwita

AU - Kulsi, Goutam

AU - Biswas, Satarupa

AU - Mukherjee, Moumita

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N2 - Understanding the mechanism towards interaction of water with polymer composite is of significance in the arena of solid-state device application, biomaterial science etc. A systematic research work is presented on the swelling behaviour and its influence towards the ionic conduction of poly [ethylene oxide] (PEO) -salt films. The influence of salts (viz. NH4I and KBr termed as PSN- & PSK-series) on the diffusion trait of polymer is analysed using non-Fickian python programming. The presence of ions and its polarizability behaviour influences the aqueous equilibration, number density of bounded and free water molecules along with the extent of cross linkage. The contribution of osmotic pressure tends to balance the dynamic non-covalent interactions thereby enhancing the diffusion driven ionic conduction (10–3 S.cm−1) process of PSK-films. Non Fickian diffusion is also found to accelerate the ionic conduction of PSK-series to 10–2 S.cm−1. The dielectric relaxation and long-term endurance (18500 h) establish the stability and applicability of such functionalized films as ionic electrolytes, membranes etc.

AB - Understanding the mechanism towards interaction of water with polymer composite is of significance in the arena of solid-state device application, biomaterial science etc. A systematic research work is presented on the swelling behaviour and its influence towards the ionic conduction of poly [ethylene oxide] (PEO) -salt films. The influence of salts (viz. NH4I and KBr termed as PSN- & PSK-series) on the diffusion trait of polymer is analysed using non-Fickian python programming. The presence of ions and its polarizability behaviour influences the aqueous equilibration, number density of bounded and free water molecules along with the extent of cross linkage. The contribution of osmotic pressure tends to balance the dynamic non-covalent interactions thereby enhancing the diffusion driven ionic conduction (10–3 S.cm−1) process of PSK-films. Non Fickian diffusion is also found to accelerate the ionic conduction of PSK-series to 10–2 S.cm−1. The dielectric relaxation and long-term endurance (18500 h) establish the stability and applicability of such functionalized films as ionic electrolytes, membranes etc.

KW - Polymer composite

KW - Poly [ethylene oxide]

KW - Non-Fickian diffusion

KW - Diffusion coefficients

KW - Equilibrium water uptake

KW - Ionic conductivity

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DO - 10.1007/s10965-024-04105-1

M3 - Article

SN - 1022-9760

VL - 31

JO - Journal of Polymer Research

JF - Journal of Polymer Research

IS - 9

M1 - 268

ER -

Understanding the ion conductivity of self-standing poly-[ethylene oxide] composite films through non Fickian diffusion mediated water uptake phenomena

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Keywords

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