Fiber‐shaped energy storage devices have great potential for use as an intelligent power
source for futuristic wearable technology. To produce high‐performance fiber‐shaped …

An all-fabric solid-state flexible supercapacitor has been fabricated using three types of
commercial woven fabrics made of carbon fiber, activated carbon fiber, and polyester fiber …

Fabric-based micro-supercapacitors have a great potential in the field of wearable flexible
energy storage devices because of the controllable volume, changeable structure, intrinsic …

Developing sustainable options for energy storage in textiles is needed to power future
wearable “Internet of Things”(IoT) electronics. This process must consider disruptive …

High‐performance wearable supercapactors (SCs) are gaining prominence as portable
energy storage devices. To further enhance both energy and power density, the significant …

For the next-generation energy-storage devices, high power density supercapacitors can be
used as complementary power supplies. However, the shortcomings such as low energy …

Lightweight energy storage technologies are integral for powering emerging wearable
health monitors and smart garments. In-plane, interdigitated microsupercapacitors (MSCs) …

Textile-based supercapacitors have recently attracted much attention owing to their great
potential as energy storage components in wearable electronics. However, fabrication of a …

Truly knitted textiles based supercapacitors (SCs) are receiving great attention owing to their
inherent flexibility and electrochemical performance. Here, the one-pot knitted conductive …

Given that conventional bulky electrochemical energy storage devices are too rigid and
heavy to be considered wearable, developing fully integrated power systems is expected to …