Triboelectric nanogenerator based sensor has excellent material compatibility, low cost, and
flexibility, which is a unique candidate technology for artificial intelligence. Triboelectric …

Wearable biosensors are garnering substantial interest due to their potential to provide
continuous, real-time physiological information via dynamic, noninvasive measurements of …

Humans detect tactile stimuli through a combination of pressure and vibration signals using
different types of cutaneous receptor. The development of artificial tactile perception systems …

Triboelectric nanogenerators (TENGs) are able to convert low-frequency biomechanical
motions into characteristically high-voltage and low-current electrical signals via a coupling …

The exploration of the utilization of sustainable, green energy represents one way in which it
is possible to ameliorate the growing threat of the global environmental issues and the crisis …

Triboelectric nanogenerator (TENG) technology is a promising research field for energy
harvesting and nanoenergy and nanosystem (NENS) in the aspect of mechanical, electrical …

With the assistance of powerful machine learning algorithms, data collecting and processing
efficiency of wearable electromechanical sensors are highly improved. Meanwhile, the …

Practical applications of next-generation stretchable electronics hinge on the development
of sustained power supplies to drive highly sensitive on-skin sensors and wireless …

The triboelectric nanogenerator (TENG) is a new type of energy generator first demonstrated
in 2012. TENGs have shown potential as power sources for electronic devices and as …

Skin‐inspired wearable devices hold great potentials in the next generation of smart
portable electronics owing to their intriguing applications in healthcare monitoring, soft …