The continuous operation of wearable electronics demands reliable sources of energy, currently met through Li-ion batteries and various energy harvesters. These solutions are being used out of necessity despite potential safety issues and unsustainable environmental impact. Safe and sustainable energy sources can boost the use of wearables systems in diverse applications such as health monitoring, prosthetics, and sports. In this regard, sweat- and sweat-equivalent-based studies have attracted tremendous attention through the demonstration of energy-generating biofuel cells, promising power densities as high as 3.5 mW cm-2 , storage using sweat-electrolyte-based supercapacitors with energy and power densities of 1.36 Wh kg-1 and 329.70 W kg...
Abstract Uninterrupted, efficient power supplies have posed a significant hurdle to the ubiquitous a...
Despite the fast development of various energy harvesting and storage devices, their judicious integ...
Abstract Flexible wearable sweat sensors allow continuous, real-time, noninvasive detection of sweat...
The continuous operation of wearable electronics demands reliable sources of energy, currently met t...
International audienceThis work demonstrates the first example of sweat-based wearable and stretchab...
A sweat-based flexible supercapacitor (SC) for self-powered smart textiles and wearable systems is p...
A sweat‐based flexible supercapacitor (SC) for self‐powered smart textiles and wearable systems is p...
This study demonstrates the first example of a stretchable and wearable textile-based hybrid superca...
Non-invasive detection of biomarkers in sweat is of great interest for assessing the body’s response...
Wearable devices have seen tremendous growth in the recent decade in the consumer electronics space,...
Wearable devices for health monitoring and fitness management have foreseen a rapidly expanding mark...
Energy autonomy is key to the next generation portable and wearable systems for several applications...
Wearable technology represents a new technological paradigm for promoting physical activity, enablin...
Wearable biosensors show considerable promise in monitoring and assessing the real-time performance ...
Abstract Uninterrupted, efficient power supplies have posed a significant hurdle to the ubiquitous a...
Despite the fast development of various energy harvesting and storage devices, their judicious integ...
Abstract Flexible wearable sweat sensors allow continuous, real-time, noninvasive detection of sweat...
The continuous operation of wearable electronics demands reliable sources of energy, currently met t...
International audienceThis work demonstrates the first example of sweat-based wearable and stretchab...
A sweat-based flexible supercapacitor (SC) for self-powered smart textiles and wearable systems is p...
A sweat‐based flexible supercapacitor (SC) for self‐powered smart textiles and wearable systems is p...
This study demonstrates the first example of a stretchable and wearable textile-based hybrid superca...
Non-invasive detection of biomarkers in sweat is of great interest for assessing the body’s response...
Wearable devices have seen tremendous growth in the recent decade in the consumer electronics space,...
Wearable devices for health monitoring and fitness management have foreseen a rapidly expanding mark...
Energy autonomy is key to the next generation portable and wearable systems for several applications...
Wearable technology represents a new technological paradigm for promoting physical activity, enablin...
Wearable biosensors show considerable promise in monitoring and assessing the real-time performance ...
Abstract Uninterrupted, efficient power supplies have posed a significant hurdle to the ubiquitous a...
Despite the fast development of various energy harvesting and storage devices, their judicious integ...
Abstract Flexible wearable sweat sensors allow continuous, real-time, noninvasive detection of sweat...