Add to ORKGThe flexible batteries that are needed to power flexible circuits and displays remain challenging, despite considerable progress in the fabrication of such devices. Here, it is shown that flexible batteries can be fabricated using arrays of carbon nanotube microstructures, which decouple stress from the energy-storage material. It is found that this battery architecture imparts exceptional flexibility (radius ≈ 300 μm), high rate (20 A g(-1) ), and excellent cycling stability
Flexible Li–S batteries have great potential for next-generation energy storage which can meet the r...
© 2016 American Chemical Society. Thin-film batteries that can be folded, bent, and even repeatedly ...
This work describes a flexible and stretchable battery pack configuration that exhibits highly stabl...
The flexible batteries that are needed to power flexible circuits and displays remain challenging, d...
Flexible portable electronic devices have attracted increasing attention during the last decade. Ene...
© 2018 The Royal Society of Chemistry. Ultra-stretchable carbon nanotube (CNT) composite electrodes ...
A unique hierarchical three dimensional (3D) flexible current collector, in which the vertically ali...
The next generation of deformable and shape-conformable electronics devices will need to be powered ...
The rational design and exploration of safe, robust, and inexpensive energy storage systems with hig...
Increasing the energy storage capability of lithium-ion batteries necessitates maximization of their...
The recent boom in flexible and wearable electronic devices has increased the demand for flexible en...
Increasing the energy storage capability of lithium-ion batteries necessitates maximization of their...
Flexible Li–S batteries have great potential for next-generation energy storage which can meet the r...
Flexible electronics is an emerging and promising technology for next generation of optoelectronic d...
Flexible electronics is an emerging and promising technology for next generation of optoelectronic d...
Flexible Li–S batteries have great potential for next-generation energy storage which can meet the r...
© 2016 American Chemical Society. Thin-film batteries that can be folded, bent, and even repeatedly ...
This work describes a flexible and stretchable battery pack configuration that exhibits highly stabl...
The flexible batteries that are needed to power flexible circuits and displays remain challenging, d...
Flexible portable electronic devices have attracted increasing attention during the last decade. Ene...
© 2018 The Royal Society of Chemistry. Ultra-stretchable carbon nanotube (CNT) composite electrodes ...
A unique hierarchical three dimensional (3D) flexible current collector, in which the vertically ali...
The next generation of deformable and shape-conformable electronics devices will need to be powered ...
The rational design and exploration of safe, robust, and inexpensive energy storage systems with hig...
Increasing the energy storage capability of lithium-ion batteries necessitates maximization of their...
The recent boom in flexible and wearable electronic devices has increased the demand for flexible en...
Increasing the energy storage capability of lithium-ion batteries necessitates maximization of their...
Flexible Li–S batteries have great potential for next-generation energy storage which can meet the r...
Flexible electronics is an emerging and promising technology for next generation of optoelectronic d...
Flexible electronics is an emerging and promising technology for next generation of optoelectronic d...
Flexible Li–S batteries have great potential for next-generation energy storage which can meet the r...
© 2016 American Chemical Society. Thin-film batteries that can be folded, bent, and even repeatedly ...
This work describes a flexible and stretchable battery pack configuration that exhibits highly stabl...