Printed Textile-Based Ag2O–Zn Battery for Body Conformal Wearable Sensors

Wearable electronics are playing an important role in the health care industry. Wearable sensors are either directly attached to the body surface or embedded into worn garments. Textile-based batteries can help towards development of body conformal wearable sensors. In this letter, we demonstrate a...

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Published inSensors (Basel, Switzerland) Vol. 21; no. 6; p. 2178
Main Authors Kota, Akash, Gogia, Ashish, Neidhard-Doll, Amy T., Chodavarapu, Vamsy P.
Format Journal Article
LanguageEnglish
Published MDPI 20.03.2021
MDPI AG
Subjects
battery characteristics
Communication
sensor power
stencil printing
textile battery
zinc-silver oxide
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Abstract Wearable electronics are playing an important role in the health care industry. Wearable sensors are either directly attached to the body surface or embedded into worn garments. Textile-based batteries can help towards development of body conformal wearable sensors. In this letter, we demonstrate a 2D planar textile-based primary Ag2O–Zn battery fabricated using the stencil printing method. A synthetic polyester woven fabric is used as the textile substrate and polyethylene oxide material is used as the separator. The demonstrated battery achieves an areal capacity of 0.6 mAh/cm2 with an active electrode area of 0.5 cm × 1 cm.
AbstractList Wearable electronics are playing an important role in the health care industry. Wearable sensors are either directly attached to the body surface or embedded into worn garments. Textile-based batteries can help towards development of body conformal wearable sensors. In this letter, we demonstrate a 2D planar textile-based primary Ag2O–Zn battery fabricated using the stencil printing method. A synthetic polyester woven fabric is used as the textile substrate and polyethylene oxide material is used as the separator. The demonstrated battery achieves an areal capacity of 0.6 mAh/cm2 with an active electrode area of 0.5 cm × 1 cm.
Wearable electronics are playing an important role in the health care industry. Wearable sensors are either directly attached to the body surface or embedded into worn garments. Textile-based batteries can help towards development of body conformal wearable sensors. In this letter, we demonstrate a 2D planar textile-based primary Ag 2 O–Zn battery fabricated using the stencil printing method. A synthetic polyester woven fabric is used as the textile substrate and polyethylene oxide material is used as the separator. The demonstrated battery achieves an areal capacity of 0.6 mAh/cm 2 with an active electrode area of 0.5 cm × 1 cm.
Author Gogia, Ashish
Chodavarapu, Vamsy P.
Kota, Akash
Neidhard-Doll, Amy T.
AuthorAffiliation Department of Electrical and Computer Engineering, University of Dayton, Dayton, OH 45469, USA; gogiaa1@udayton.edu (A.G.); aneidharddoll1@udayton.edu (A.T.N.-D.); vchodavarapu1@udayton.edu (V.P.C.)
AuthorAffiliation_xml – name: Department of Electrical and Computer Engineering, University of Dayton, Dayton, OH 45469, USA; gogiaa1@udayton.edu (A.G.); aneidharddoll1@udayton.edu (A.T.N.-D.); vchodavarapu1@udayton.edu (V.P.C.)
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Snippet Wearable electronics are playing an important role in the health care industry. Wearable sensors are either directly attached to the body surface or embedded...
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SubjectTerms battery characteristics
Communication
sensor power
stencil printing
textile battery
zinc-silver oxide
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Title Printed Textile-Based Ag2O–Zn Battery for Body Conformal Wearable Sensors
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