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 …

The continuous expansion of smart microelectronics has put forward higher requirements for
energy conversion, mechanical performance, and biocompatibility of micro-energy storage …

Point of care testing (POCT), ie, medical tests performed wherever the patient is with the
possibility to immediately get and send the results to the doctor for clinical decision making …

Coplanar supercapacitors on textiles have received much concern with the development of
flexible and wearable energy-storage-devices because this configuration can remarkably …

Flexible supercapacitors have immense promise for powering wearable electronics, but they
are constrained by a lack of efficient preparation methods and low energy density. Herein …

Micro-supercapacitors (MSCs) have received a lot of attention with the rapid development of
wearable, highly integrated, and flexible electronics due to their high power density and long …

The digitization of a society has tremendously influenced the social, economic, and
organizational activities of human beings. Internet of things (IoT) will be the next norm to …

Textile-based energy storage devices are exceedingly finding requirements in the
development of wearable and intelligent electronics, which need the energy to be supplied …

Rapid development in microelectronics demands the advancement of energy retention
devices at the micro-scale, considering their compact size and remarkable ability to store …

The emerging wearable electronics integrated into textiles are posing new challenges both
in materials and micro-fabrication strategies to produce textile-based energy storage and …