Abstract
Flexible devices are shock absorbent, unbreakable, light in weight, smaller in dimension, and come at a lower cost. These exceptional properties of the flexible devices are catalyst for the continuous development of stretchable nanostructured materials to address the related challenges such as structure complexity. Similar to flexible electronic devices, the energy storage devices are also an essential part of such system and parallel work going on to develop the electrochemical flexible energy storage system such as flexible batteries and supercapacitors. In the flexible electronic devices such as microsensors, biomedical devices, and wearable electronic suits, flexible supercapacitors (FSCs) can be easily embedded as an essential part working as a powerhouse. However, the technology is still at the early stage of lab research, and thus exploring novel approaches remains an urgent academic and industrial challenge.
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