QU et al

A metal electrode is a significant component of a zinc–air battery (ZAB), but the metal material is usually not elastic, which severely restricts the application of flexible and stretchable ZABs in the field of wearable electronic devices. Herein, we report a flexible and stretchable metal‐coated te...

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Bibliographic Details
Published inCarbon energy Vol. 4; no. 5; pp. 867 - 877
Main Authors Qu, Shengxiang, Liu, Jie, Han, Xiaopeng, Deng, Yida, Cheng, Zhong, Hu, Wenbin
Format Journal Article
LanguageEnglish
Published Beijing John Wiley & Sons, Inc 01.09.2022
Subjects
Batteries
Carboxymethyl cellulose
Carboxymethylcellulose
Cellulose
Coatings
Conductivity
Deformation
Electrodes
Electrolytes
Electronic devices
Electronic equipment
Electroplating
Fabrication
Hydrogels
Ion currents
Mechanical properties
Metal air batteries
Metals
Microfibers
Open systems
Plating
Polyacrylic acid
Potassium
Potassium hydroxide
Potassium hydroxides
Scanning electron microscopy
Sodium carboxymethyl cellulose
Stretchability
Stretching
Substrates
Tensile strain
Textiles
Wearable technology
Zinc-oxygen batteries
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Summary:A metal electrode is a significant component of a zinc–air battery (ZAB), but the metal material is usually not elastic, which severely restricts the application of flexible and stretchable ZABs in the field of wearable electronic devices. Herein, we report a flexible and stretchable metal‐coated textile prepared by a dynamic stretching–electroplating based on a wavy spandex textile substrate. Benefiting from the unique woven and wavy structure, the metal‐coated textile shows a high stretchability of 100% and stable conductivity. In situ scanning electron microscope observation during stretching showed that the tensile strain of the metal‐coated textile is mainly attributed to the deformation of the microfiber network at the bottom position of the wave structure. In addition, a sodium carboxymethyl cellulose–polyacrylic acid–potassium hydroxide composite hydrogel has been used as the electrolyte. This hydrogel shows excellent ionic conductivity, mechanical properties, and water retention properties, which makes it suitable for the semi‐open system of ZAB. Furthermore, a flexible and stretchable sandwich‐structure ZAB, assembled using the above‐mentioned electrodes and electrolyte, operates stably even under rapid stretching/releasing cycle deformation. Because of its facile preparation and low cost, this flexible and stretchable ZAB is suitable for fabrication of large‐area batteries to obtain higher output current and power to drive wearable electronic devices.
ISSN:2637-9368
DOI:10.1002/cey2.204