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Structural modifications and ionic transport of PVA-KOH hydrogels applied in Zn/Air batteries

A series of Poly (vinyl alcohol) (PVA)-based gel polymer electrolytes doped with KOH solution have been synthesized by a cast method in absence of other additives and crosslinkers. Immersion of these membranes in 12 M KOH solution causes the entrance of a higher amount of KOH and water inside the po...

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Published in:Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2019-10, Vol.850, p.113380, Article 113380
Main Authors: Santos, Florencio, Tafur, Juan P., Abad, José, Fernández Romero, Antonio J.
Format: Article
Language:English
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Summary:A series of Poly (vinyl alcohol) (PVA)-based gel polymer electrolytes doped with KOH solution have been synthesized by a cast method in absence of other additives and crosslinkers. Immersion of these membranes in 12 M KOH solution causes the entrance of a higher amount of KOH and water inside the polymeric matrix. XRD, TGA, XPS and ATR-FTIR measurements confirm PVA chains restructure depending on the amount of KOH and water inside the membrane. This fact is in agreement with the improvement of the ionic conductivity, diminishing of activation energy and increasing of peaks intensities in cyclic voltammograms. Besides, these PVA-KOH membranes have been tested in Zn/PVA-KOH/Air batteries confirming the importance of the amount of KOH and water inside the gel polymer electrolyte. Finally, XRD and EDX measurements demonstrate the confinement of Zn++ close to Zn electrode during the test of Zn/Air batteries, making necessary the movement of OH– anions inside the membrane, as the only ionic species causing the charge transport through the membrane. This fact, together with spectroscopic and electrical results allows us to discuss the improvement of the anionic transport inside the membranes based on the Grotthuss mechanism. [Display omitted] •Ionic Conductivity values increase with the amount of KOH and H2O into PVA-KOH.•OH– anions are the only ionic species causing the charge transport in PVA-KOH.•Zn2+ cations remains close to electrode and are not transported to the electrolyte bulk.•PVA-KOH membranes could be used to obtain rechargeable batteries.
ISSN:1572-6657
1873-2569
DOI:10.1016/j.jelechem.2019.113380