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Low-voltage SoC For Healthcare Wearables
A tiny chip makes medical wearables smarter with long battery life, low power, and accurate tracking to help keep patients safe and devices reliable.
Demand...
Self-Powered Flexible Sensors For Wearables
Imagine a tiny sensor that powers itself, senses your touch, and fits anywhere. It could change wearables, smart devices, and the way we interact...
Biodegradable Battery For Wearables
Imagine a battery can bend, stretch, and break down safely after use. It could power wearables and medical devices while cutting down electronic waste.
Battery...
Body Heat Film Powers Wearables
A thermoelectric film can harvest enough energy from the tiny temperature difference between skin and air to light an LED, marking one of the...
Ultra-Compact Wearable Display Reference Design
A new miniature display reference design brings high-resolution visuals, low-power processing, and a complete video-to-optics pipeline to next-generation smart glasses, viewfinders, and compact AR...
Efficient Wearable Device Processing
Wearable devices can read health data and use less battery. See how a new system helps tiny processors work longer and process data.
Electronic components...
Ultra-Light “Fabric Muscle” For Wearable Robots
An automated system that weaves ultra-thin “fabric muscles” capable of powering wearable robots like everyday clothing—lightweight, flexible, and ready for mass production.
In a major...
Making Wearable Biosensor Data Stable
Wearables read sweat chemistry, but the numbers lie when the body moves. A new transistor trick strips out that drift and reveals the real...
Slim Wearables That Just Work
What if your health tracker never needed charging, screens, or apps, yet still nudged you when goals were met? A small wearable is making...
Flexible Supercapacitor For Wearables And EVs
A flexible supercapacitor can charge, bend, and last long, making it useful for wearables, electric vehicles, and clean energy. Could this change energy storage?
Energy...
