Investigation of the Environmental Stability of Poly(vinyl alcohol)-KOH Polymer Electrolytes for Flexible Zinc-Air Batteries.

Xiayue Fan,Jia Ding,Yida Deng,Wenbin Hu,Cheng Zhong,Jie Liu,Xiaopeng Han

doi:10.3389/fchem.2019.00678

Xiayue Fan, Jia Ding + Show 5 more

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https://doi.org/10.3389/fchem.2019.00678

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Abstract

Next-generation wearable and portable electronic devices require the development of flexible energy-storage devices with high energy density and low cost. Over the past few decades, flexible zinc–air batteries (FZABs), characterized by their extremely high theoretical energy density from consuming oxygen in air and low cost, have been regarded as one of the most promising power supplies. However, their unique half-open structure poses great challenges for the environmental stability of their components, including the electrolyte and electrodes. As an important ionic conductor, the poly(vinyl alcohol) (PVA)–KOH gel polymer electrolyte (GPE) has been widely utilized in FZABs. To date, most studies have focused on investigations of the electrode, electrocatalyst materials and battery configuration, while very few have paid attention to the influence of the environment on the electrolyte and the corresponding FZAB performance. Herein, for the first time, the environmental stability of PVA–KOH GPE, such as dimensional stability and water and ionic conductivity retention capability, for FZABs in ambient air has been thoroughly studied. Moreover, the properties of the assembled FZABs in terms of cycling stability, discharge performance and power output are investigated. This report aims to play a leading role in examining the environmental stability of electrolytes in FZABs, which is critical for their practical applications.

Highlights

The ever-growing demand for wearable and portable electronic devices as well as burgeoning energy and environmental concerns has been driving forces for advanced flexible energy-storage systems with high energy density and high economic efficiency (Su et al, 2017; Ding et al, 2019; Fan et al, 2019)
This paper aims to provide further insight into the environmental stability of conventionally used Poly(vinyl alcohol) (PVA)– KOH electrolytes for flexible zinc–air batteries (FZABs), which is essential for their practical applications
The commonly used PVA–KOH gel polymer electrolyte (GPE) was investigated in terms of its environmental stability, including its dimensional stability and water and ionic conductivity retention capability in ambient air

Summary

Introduction

The ever-growing demand for wearable and portable electronic devices as well as burgeoning energy and environmental concerns has been driving forces for advanced flexible energy-storage systems with high energy density and high economic efficiency (Su et al, 2017; Ding et al, 2019; Fan et al, 2019) To meet these requirements, the flexible zinc–air battery (FZAB), which is composed of a zinc anode, a semi-solid electrolyte and an air cathode, is a promising energy-storage technology known for its remarkably high theoretical energy density, environmental benignancy, and low cost (Xu et al, 2015a; Chen et al, 2018; Li et al, 2019). The resultant FZAB could be knitted into clothes and had stable performance under various severe deformations

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