A Half Millimeter Thick Coplanar Flexible Battery with Wireless Recharging Capability

Authors
Kim, Joo-SeongKo, DongahYoo, Dong-JooJung, Dae SooYavuz, Cafer T.Kim, Nam-InChoi, In-SukSong, Jae YongChoi, Jang Wook
Issue Date
2015-04
Publisher
AMER CHEMICAL SOC
Citation
NANO LETTERS, v.15, no.4, pp.2350 - 2357
Abstract
Most of the existing flexible lithium ion batteries (LIBs) adopt the conventional cofacial cell configuration where anode, separator, and cathode are sequentially stacked and so have difficulty in the integration with emerging thin LIB applications, such as smart cards and medical patches. In order to overcome this shortcoming, herein, we report a coplanar cell structure in which anodes and cathodes are interdigitatedly positioned on the same plane. The coplanar electrode design brings advantages of enhanced bending tolerance and capability of increasing the cell voltage by in series-connection of multiple single-cells in addition to its suitability for the thickness reduction. On the basis of these structural benefits, we develop a coplanar flexible LIB that delivers 7.4 V with an entire cell thickness below 0.5 mm while preserving stable electrochemical performance throughout 5000 (un)bending cycles (bending radius = 5 mm). Also, even the pouch case serves as barriers between anodes and cathodes to prevent Li dendrite growth and short-circuit formation while saving the thickness. Furthermore, for convenient practical use wireless charging via inductive electromagnetic energy transfer and solar cell integration is demonstrated.
Keywords
LITHIUM-ION BATTERIES; SENSITIZED SOLAR-CELLS; ENERGY-STORAGE DEVICES; ELECTRONICS; PAPER; SUPERCAPACITOR; TRANSISTORS; SYSTEMS; FIBERS; ARRAYS; LITHIUM-ION BATTERIES; SENSITIZED SOLAR-CELLS; ENERGY-STORAGE DEVICES; ELECTRONICS; PAPER; SUPERCAPACITOR; TRANSISTORS; SYSTEMS; FIBERS; ARRAYS; Coplanar structure; flexible battery; interelectrode barrier; lithium ion battery; wireless charging
ISSN
1530-6984
URI
https://pubs.kist.re.kr/handle/201004/125624
DOI
10.1021/nl5045814
Appears in Collections:
KIST Article > 2015
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