A sweat-based flexible supercapacitor (SC) for self-powered smart textiles and wearable systems is presented. The developed SC uses sweat as the electrolyte and poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) as the active electrode. With PEDOT:PSS coated onto cellulose/polyester cloth, the SC shows specific capacitance of 8.94 F g−1 (10 mF cm−2) at 1 mV s−1. With artificial sweat, the energy and power densities of the SC are 1.36 Wh kg−1 and 329.70 W kg−1, respectively for 1.31 V and its specific capacitance is 5.65 F g−1. With real human sweat the observed energy and power densities are 0.25 Wh kg−1, and 30.62 W kg−1, respectively. The SC performance is evaluated with different volumes of sweat (20, 50, and 100 µL), be...
Noninvasive and seamless interfacing between the sensors and human skin is highly desired for wearab...
Smart textile represents a novel and extremely fast-growing area in the well-established wearable se...
Sweat analysis can provide a valuable insight into a person’s well-being. Here we present wearable ...
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...
International audienceThis work demonstrates the first example of sweat-based wearable and stretchab...
The continuous operation of wearable electronics demands reliable sources of energy, currently met t...
The continuous operation of wearable electronics demands reliable sources of energy, currently met t...
Wearable electronic textiles are an emerging research field playing a pivotal role among several dif...
Electronic textiles (e-textiles) have drawn significant attention from the scientific and engineerin...
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 textile chemical sensors are promising devices due to the potential applications in medicin...
The rapid development of wearable electronics and smart textiles has dramatically motivated the gene...
Noninvasive and seamless interfacing between the sensors and human skin is highly desired for wearab...
Smart textile represents a novel and extremely fast-growing area in the well-established wearable se...
Sweat analysis can provide a valuable insight into a person’s well-being. Here we present wearable ...
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...
International audienceThis work demonstrates the first example of sweat-based wearable and stretchab...
The continuous operation of wearable electronics demands reliable sources of energy, currently met t...
The continuous operation of wearable electronics demands reliable sources of energy, currently met t...
Wearable electronic textiles are an emerging research field playing a pivotal role among several dif...
Electronic textiles (e-textiles) have drawn significant attention from the scientific and engineerin...
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 textile chemical sensors are promising devices due to the potential applications in medicin...
The rapid development of wearable electronics and smart textiles has dramatically motivated the gene...
Noninvasive and seamless interfacing between the sensors and human skin is highly desired for wearab...
Smart textile represents a novel and extremely fast-growing area in the well-established wearable se...
Sweat analysis can provide a valuable insight into a person’s well-being. Here we present wearable ...