Researchers from the University of Science and Technology Beijing report a wearable self-cleaning/charging power system (SPS) that can harvest electrical energy from falling raindrops.
Results for "wearable"
Wearable Fingernail Sensor Provides Hotbed of Thermal Data
A wearable fingernail sensor that can collect thermal data of the nailbed tissue in real-time is developed.
![Synthetic Anti-Ferromagnetic Nanostructures for Wearable Spintronic Devices [Video]](https://www.advancedsciencenews.com/wp-content/uploads/2018/05/adma201800449_ASN_image.png)
Synthetic Anti-Ferromagnetic Nanostructures for Wearable Spintronic Devices [Video]
Ionic gel modulation of Ruderman–Kittel–Kasuya–Yosida interactions in flexible, synthetic anti-ferromagnetic nanostructures.
Printing Wearable Graphene Sensors
Graphene sensors with high-resolution features are produced on flexible tapes for wearable electronics via a simplified drop-cast-and-transfer process.
Cover Art – Stroke Remediation, Composite Gel Scaffolds and Wearable Biosensors
Latest Advanced Healthcare Materials covers.
Future Wearable Devices: Responsive, Self-Powered, Flexible
Next-generation electronics should be wearable, versatile, and energy-efficient. A new sensor systems combined with a triboelectric nanogenerator provides an excellent solution.
A Rapidly Self-Healing Polymer for Wearable Devices
Researchers from the Korea Research Institute of Chemical Technology report a novel self-healing polymer that undergoes rapid self-healing by aromatic disulfide metathesis. More than 75% of the initial mechanical properties are restored within only 2 hours, making it a promising material for the wearable electronics industry.
Flexible Solar Cell for Wearable Electronics Produced by Green Printing Process
Fengyu Li and Yanlin Song from the Chinese Academy of Sciences, along with their co-workers, have designed high-performance flexible perovskite solar cells (PSCs) for wearable electronics using green printing technology.
Superhydrophobic Smart Coating for Wearable Electronic Devices
Ting Zhang and co-workers from the Suzhou Institute of Nano-Tech and Nano-Bionics at the Chinese Academy of Sciences develop a novel superhydrophobic and piezoresistive coating for wearable sensing devices. The coating is durable in harsh conditions and can be used to detect real-time human movement when fabricated as a wearable strain sensor.
Wearable Tactile Sensors for Haptic Perception
A wearable liquid-embedded microfluidic tactile sensor capable of haptic perception has been prepared.
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