Accordion-like stretchable Li-ion batteries with high energy density

Changmin Shi; Tianyang Wang; Xiangbiao Liao; Boyu Qie; Pengfei Yang; Meijie Chen; Xue Wang; Arvind Srinivasan; Qian Cheng; Qin Ye; Alex Ceng Li; Xi Chen; Yuan Yang

doi:10.1016/j.ensm.2018.11.019

Accordion-like stretchable Li-ion batteries with high energy density

Changmin Shi, Tianyang Wang, Xiangbiao Liao, Boyu Qie, Pengfei Yang, Meijie Chen, Xue Wang, Arvind Srinivasan, Qian Cheng, Qin Ye, Alex Ceng Li, Xi Chen, Yuan Yang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

75 Citations (Scopus)

Abstract

High-performance stretchable batteries are key components for stretchable devices. However, it is challenging to have both high stretchability and high energy density simultaneously. Herein, we report a design of accordion-like stretchable lithium ion batteries, where the rigid energy storage units are connected by wrinkled and stretchable components. Simulation results show that such accordion-like design and the tape/metal/tape sandwiched structure reduces maximum stress of Al foil in the structure from 31.2 MPa to only 17.1 MPa, which significantly enhance the cell stability. Meanwhile, as the volume of rigid segments are larger than the stretchable part, such design can achieve stretchability of 29% while maintaining 77% (233 Wh L⁻¹) of volumetric energy density of that in conventional packing. Experimentally, the cell shows a high capacity retention of 95.4% even after stretching by 22% for 10,000 times, bending for 20,000 times, and 100 cycles at 0.5 C. It also provides steady power output during continuous dynamic mechanical tests. The corresponding average discharge voltage is only reduced by 1 mV. This accordion-like battery provides an alternative strategy to design stretchable batteries for stretchable devices.

Original language	English
Pages (from-to)	136-142
Number of pages	7
Journal	Energy Storage Materials
Volume	17
DOIs	https://doi.org/10.1016/j.ensm.2018.11.019
Publication status	Published - Feb 2019
Externally published	Yes

Keywords

High energy density
Lithium ion battery
Stretchable electronics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.ensm.2018.11.019

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title = "Accordion-like stretchable Li-ion batteries with high energy density",

abstract = "High-performance stretchable batteries are key components for stretchable devices. However, it is challenging to have both high stretchability and high energy density simultaneously. Herein, we report a design of accordion-like stretchable lithium ion batteries, where the rigid energy storage units are connected by wrinkled and stretchable components. Simulation results show that such accordion-like design and the tape/metal/tape sandwiched structure reduces maximum stress of Al foil in the structure from 31.2 MPa to only 17.1 MPa, which significantly enhance the cell stability. Meanwhile, as the volume of rigid segments are larger than the stretchable part, such design can achieve stretchability of 29% while maintaining 77% (233 Wh L−1) of volumetric energy density of that in conventional packing. Experimentally, the cell shows a high capacity retention of 95.4% even after stretching by 22% for 10,000 times, bending for 20,000 times, and 100 cycles at 0.5 C. It also provides steady power output during continuous dynamic mechanical tests. The corresponding average discharge voltage is only reduced by 1 mV. This accordion-like battery provides an alternative strategy to design stretchable batteries for stretchable devices.",

keywords = "High energy density, Lithium ion battery, Stretchable electronics",

author = "Changmin Shi and Tianyang Wang and Xiangbiao Liao and Boyu Qie and Pengfei Yang and Meijie Chen and Xue Wang and Arvind Srinivasan and Qian Cheng and Qin Ye and Li, {Alex Ceng} and Xi Chen and Yuan Yang",

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doi = "10.1016/j.ensm.2018.11.019",

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T1 - Accordion-like stretchable Li-ion batteries with high energy density

AU - Shi, Changmin

AU - Wang, Tianyang

AU - Liao, Xiangbiao

AU - Qie, Boyu

AU - Yang, Pengfei

AU - Chen, Meijie

AU - Wang, Xue

AU - Srinivasan, Arvind

AU - Cheng, Qian

AU - Ye, Qin

AU - Li, Alex Ceng

AU - Chen, Xi

AU - Yang, Yuan

PY - 2019/2

Y1 - 2019/2

N2 - High-performance stretchable batteries are key components for stretchable devices. However, it is challenging to have both high stretchability and high energy density simultaneously. Herein, we report a design of accordion-like stretchable lithium ion batteries, where the rigid energy storage units are connected by wrinkled and stretchable components. Simulation results show that such accordion-like design and the tape/metal/tape sandwiched structure reduces maximum stress of Al foil in the structure from 31.2 MPa to only 17.1 MPa, which significantly enhance the cell stability. Meanwhile, as the volume of rigid segments are larger than the stretchable part, such design can achieve stretchability of 29% while maintaining 77% (233 Wh L−1) of volumetric energy density of that in conventional packing. Experimentally, the cell shows a high capacity retention of 95.4% even after stretching by 22% for 10,000 times, bending for 20,000 times, and 100 cycles at 0.5 C. It also provides steady power output during continuous dynamic mechanical tests. The corresponding average discharge voltage is only reduced by 1 mV. This accordion-like battery provides an alternative strategy to design stretchable batteries for stretchable devices.

AB - High-performance stretchable batteries are key components for stretchable devices. However, it is challenging to have both high stretchability and high energy density simultaneously. Herein, we report a design of accordion-like stretchable lithium ion batteries, where the rigid energy storage units are connected by wrinkled and stretchable components. Simulation results show that such accordion-like design and the tape/metal/tape sandwiched structure reduces maximum stress of Al foil in the structure from 31.2 MPa to only 17.1 MPa, which significantly enhance the cell stability. Meanwhile, as the volume of rigid segments are larger than the stretchable part, such design can achieve stretchability of 29% while maintaining 77% (233 Wh L−1) of volumetric energy density of that in conventional packing. Experimentally, the cell shows a high capacity retention of 95.4% even after stretching by 22% for 10,000 times, bending for 20,000 times, and 100 cycles at 0.5 C. It also provides steady power output during continuous dynamic mechanical tests. The corresponding average discharge voltage is only reduced by 1 mV. This accordion-like battery provides an alternative strategy to design stretchable batteries for stretchable devices.

KW - High energy density

KW - Lithium ion battery

KW - Stretchable electronics

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DO - 10.1016/j.ensm.2018.11.019

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ER -

Accordion-like stretchable Li-ion batteries with high energy density

Abstract

Keywords

UN SDGs

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