Winding aligned carbon nanotube composite yarns into coaxial fiber full batteries with high performances

Wei Weng; Qian Sun; Ye Zhang; Huijuan Lin; Jing Ren; Xin Lu; Min Wang; Huisheng Peng

doi:10.1021/nl5009647

Winding aligned carbon nanotube composite yarns into coaxial fiber full batteries with high performances

Wei Weng, Qian Sun, Ye Zhang, Huijuan Lin, Jing Ren, Xin Lu, Min Wang, Huisheng Peng

Fudan University

科研成果: 期刊稿件 › 文章 › 同行评审

238 引用（Scopus）

摘要

Inspired by the fantastic and fast-growing wearable electronics such as Google Glass and Apple iWatch, matchable lightweight and weaveable energy storage systems are urgently demanded while remaining as a bottleneck in the whole technology. Fiber-shaped energy storage devices that can be woven into electronic textiles may represent a general and effective strategy to overcome the above difficulty. Here a coaxial fiber lithium-ion battery has been achieved by sequentially winding aligned carbon nanotube composite yarn cathode and anode onto a cotton fiber. Novel yarn structures are designed to enable a high performance with a linear energy density of 0.75 mWh cm^-1. A wearable energy storage textile is also produced with an areal energy density of 4.5 mWh cm^-2.

源语言	英语
页（从-至）	3432-3438
页数	7
期刊	Nano Letters
卷	14
期	6
DOI	https://doi.org/10.1021/nl5009647
出版状态	已出版 - 11 6月 2014
已对外发布	是

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10.1021/nl5009647

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abstract = "Inspired by the fantastic and fast-growing wearable electronics such as Google Glass and Apple iWatch, matchable lightweight and weaveable energy storage systems are urgently demanded while remaining as a bottleneck in the whole technology. Fiber-shaped energy storage devices that can be woven into electronic textiles may represent a general and effective strategy to overcome the above difficulty. Here a coaxial fiber lithium-ion battery has been achieved by sequentially winding aligned carbon nanotube composite yarn cathode and anode onto a cotton fiber. Novel yarn structures are designed to enable a high performance with a linear energy density of 0.75 mWh cm-1. A wearable energy storage textile is also produced with an areal energy density of 4.5 mWh cm-2.",

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AU - Weng, Wei

AU - Sun, Qian

AU - Zhang, Ye

AU - Lin, Huijuan

AU - Ren, Jing

AU - Lu, Xin

AU - Wang, Min

AU - Peng, Huisheng

PY - 2014/6/11

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AB - Inspired by the fantastic and fast-growing wearable electronics such as Google Glass and Apple iWatch, matchable lightweight and weaveable energy storage systems are urgently demanded while remaining as a bottleneck in the whole technology. Fiber-shaped energy storage devices that can be woven into electronic textiles may represent a general and effective strategy to overcome the above difficulty. Here a coaxial fiber lithium-ion battery has been achieved by sequentially winding aligned carbon nanotube composite yarn cathode and anode onto a cotton fiber. Novel yarn structures are designed to enable a high performance with a linear energy density of 0.75 mWh cm-1. A wearable energy storage textile is also produced with an areal energy density of 4.5 mWh cm-2.

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Winding aligned carbon nanotube composite yarns into coaxial fiber full batteries with high performances

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