RETRACTED ARTICLE: Fabrication of flexible lithium-ion battery electrodes for wearable full battery with high electrochemical performance

A new method is provided for preparing self-supporting flexible lithium-ion battery electrodes of a textile structure by using extrusion 3D printing technology, using a high concentration of polyvinylidene fluoride as a viscosity modifier, carbon nanotube as a conductive agent, lithium iron phosphat...

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Published in	Journal of materials science. Materials in electronics Vol. 31; no. 9; pp. 6716 - 6725
Main Author	Gao, Shu-Juan
Format	Journal Article
Language	English
Published	New York Springer US 01.05.2020
Subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Materials Science Optical and Electronic Materials
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Abstract	A new method is provided for preparing self-supporting flexible lithium-ion battery electrodes of a textile structure by using extrusion 3D printing technology, using a high concentration of polyvinylidene fluoride as a viscosity modifier, carbon nanotube as a conductive agent, lithium iron phosphate or lithium titanate as an electrode active material. A printable ink prepared in the paper, with an apparent viscosity of approximately 10 5 Pa s, exhibits significant shear thinning behavior, and the storage modulus platform value reaches a high value of 10 5 Pa; its excellent rheological properties are beneficial for the printing and solidification process. Electrochemical test results show that the two printing electrodes have a stable and well-matched charge–discharge specific capacity, so the assembled soft-packed lithium-ion battery displays a discharge specific capacity of up to 108 mAh·g −1 , and after bending the battery, the discharge specific capacity under the same current density (50 mA·g −1 ) is about 111 mAh·g −1 . The outstanding electrochemical properties open up possibilities for flexible and wearable electronics applications.
AbstractList	A new method is provided for preparing self-supporting flexible lithium-ion battery electrodes of a textile structure by using extrusion 3D printing technology, using a high concentration of polyvinylidene fluoride as a viscosity modifier, carbon nanotube as a conductive agent, lithium iron phosphate or lithium titanate as an electrode active material. A printable ink prepared in the paper, with an apparent viscosity of approximately 10 5 Pa s, exhibits significant shear thinning behavior, and the storage modulus platform value reaches a high value of 10 5 Pa; its excellent rheological properties are beneficial for the printing and solidification process. Electrochemical test results show that the two printing electrodes have a stable and well-matched charge–discharge specific capacity, so the assembled soft-packed lithium-ion battery displays a discharge specific capacity of up to 108 mAh·g −1 , and after bending the battery, the discharge specific capacity under the same current density (50 mA·g −1 ) is about 111 mAh·g −1 . The outstanding electrochemical properties open up possibilities for flexible and wearable electronics applications.
Author	Gao, Shu-Juan
Author_xml	– sequence: 1 givenname: Shu-Juan surname: Gao fullname: Gao, Shu-Juan email: 2891548105@qq.com organization: Department of Chemistry and Chemical Engineering, Lvliang University
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Title	RETRACTED ARTICLE: Fabrication of flexible lithium-ion battery electrodes for wearable full battery with high electrochemical performance
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