Flexible and stretchable lithium‐ion batteries and supercapacitors based on electrically conducting carbon nanotube fiber springs
Angewandte Chemie International Edition, 2014•Wiley Online Library
The construction of lightweight, flexible and stretchable power systems for modern electronic
devices without using elastic polymer substrates is critical but remains challenging. We have
developed a new and general strategy to produce both freestanding, stretchable, and
flexible supercapacitors and lithium‐ion batteries with remarkable electrochemical
properties by designing novel carbon nanotube fiber springs as electrodes. These springlike
electrodes can be stretched by over 300%. In addition, the supercapacitors and lithium‐ion …
devices without using elastic polymer substrates is critical but remains challenging. We have
developed a new and general strategy to produce both freestanding, stretchable, and
flexible supercapacitors and lithium‐ion batteries with remarkable electrochemical
properties by designing novel carbon nanotube fiber springs as electrodes. These springlike
electrodes can be stretched by over 300%. In addition, the supercapacitors and lithium‐ion …
Abstract
The construction of lightweight, flexible and stretchable power systems for modern electronic devices without using elastic polymer substrates is critical but remains challenging. We have developed a new and general strategy to produce both freestanding, stretchable, and flexible supercapacitors and lithium‐ion batteries with remarkable electrochemical properties by designing novel carbon nanotube fiber springs as electrodes. These springlike electrodes can be stretched by over 300 %. In addition, the supercapacitors and lithium‐ion batteries have a flexible fiber shape that enables promising applications in electronic textiles.
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