Fast-Charging, Long-Running, Bendable Supercapacitor

This technology has potential as a portable power supply in several applications, including electric vehicles, cellphones, and wearable technology.

Implantable Transmitter for Wireless Sensor Nodes

An invention that uses microchip technology in implantable devices and other wearable products such as smart watches can be used to improve biomedical devices including those used to monitor people with glaucoma and heart disease. Read on to learn more.

A Better Magnetoreceptive E-Skin

A research team has developed an electronic skin that detects and precisely tracks magnetic fields with a single global sensor. Read on to learn more.

What Are Smart Glasses?

Smart glasses are wearable devices that integrate computer technology into eyeglasses. These glasses work by projecting digital images onto the user’s field of vision. Test your knowledge about smart glasses.

A Lighter, Smarter Magnetoreceptive Electronic Skin

Imagine navigating a virtual reality with contact lenses or operating your smartphone under water — this and more could soon be a reality thanks to innovative e-skins. A research team...

A Color-Based Sensor Emulates Skin’s Sensitivity

Jamie Paik and colleagues in the Reconfigurable Robotics Lab in EPFL’s School of Engineering have developed a sensor that can perceive combinations of bending, stretching, compression, and temperature changes, all using a robust system that boils down to a simple concept: color. Read on to learn more about it.

Transmitting Power Through the Body

To free wearable tech from their burdens, researchers developed Power-over-Skin, which allows electricity to travel through the human body and could one day power battery-free devices from head to toe.

Soft, Bioelectronic Sensor Implant

Researchers at the University of California, Irvine and New York’s Columbia University have embedded transistors in a soft, conformable material to create a biocompatible sensor implant that monitors...

Products of Tomorrow

See the products of tomorrow, including a nanorobotic hand made of DNA that can grab viruses for detection or inhibition developed at the University of Illinois Urbana-Champaign; a new and improved wearable ultrasound patch for continuous and noninvasive blood pressure monitoring developed at the University of California San Diego; and soft and intelligent sensor materials based on ceramic particles developed at Empa’s Laboratory for High-Performance Ceramics.

So CUTE! New Wearable Device Creates Unprecedented Haptic Sensations

Researchers have developed cutaneous electrohydraulic (CUTE) wearable devices to greatly expand the haptic sensations that can be created by future consumer products.

The Integration of Sensors into Next-Generation Health Devices

How advanced sensor technologies driving the development of wearables and health-monitoring devices.

The Role of MEMS in Next-Gen Medical Devices

How microfabrication and MEMS technology are driving sensor-based medical devices.

Implantable Sensors for Internal Health Monitoring

The advent of implantable sensor technologies has had a transformative impact on internal health monitoring. This episode looks into the advancements that allow for continuous, real-time data collection from within the human body, revolutionizing patient care and treatment strategies.

A Haptic Patch Can Transmit Complex Information to a Wearer’s Skin

Matthew Flavin, Ph.D., was part of a team at Northwestern University that developed a haptic patch to convey visual information to unsighted people through an array of multi-function actuators. Now, as assistant professor in the School of Electrical Engineering, he has started a new lab at the Georgia Institute of Technology to continue his work on bioelectronics.

The Rise of Advanced Sensor Technologies

How sensors are reshaping the landscape of medical diagnostics, enabling quicker and more accurate health assessments.

New Wearable Communication System Can Transmit Data Farther than Wi-Fi

A group of University of Arizona researchers has developed a wearable monitoring device system that can send health data up to 15 miles without any significant infrastructure. Their device, they hope, will help make digital health access more equitable. Read on to learn more.

Silicone Membrane for Wearable Devices is Comfortable and Breathable

A silicone membrane for wearable devices is more comfortable and breathable thanks to better-sized pores made with the help of citric acid crystals. The new preparation technique fabricates thin, silicone-based patches that rapidly wick water away from the skin. The technique could reduce the redness and itching caused by wearable biosensors that trap sweat beneath them. Read on to learn more.

Future Washable Smart Clothes Powered by Wi-Fi will Monitor Health

Purdue University engineers have developed a method to transform existing cloth items into battery-free wearables resistant to laundering. These smart clothes are powered wirelessly through a flexible, silk-based coil sewn on the textile. Read on to learn more.

MXene Nanomaterials for Wireless Charging in Textiles

Researchers have built a full textile energy grid that can be wirelessly charged. The team reported that it can power textile devices, including a warming element and environmental sensors that transmit data in real-time.

Stretchable, Flexible Biofuel Cell Runs on Sweat

A flexible and stretchable cell has been developed for wearable electronic devices that require a reliable and efficient energy source that can easily be integrated into the human body. Read on to learn more about it.

Products of Tomorrow

See the products of tomorrow, including a self-powered “bug” that can skim across water; a sweat-powered wearable that has the potential to make continuous, personalized health monitoring as effortless as wearing a Band-Aid; and a novel foot-pedal operated system and device to control movement of an object in three-dimensional space.

A Stretchable, Wearable Device that Fully Utilizes Body Heat

UW researchers have developed a flexible, durable electronic prototype that can harvest energy from body heat and turn it into electricity that can be used to power small electronics.

5Ws of the Smart Mask

Caltech engineers have developed a prototype for a high-tech paper mask that can be used to monitor a range of metabolic and respiratory conditions.

Smart Full-Body Fitness Tracking

With the new Smart Connected Sensors platform from Bosch Sensortec, you can track more than just steps. You can program complex whole-body movements and accurately track them during physical workouts or while you are going through a rehabilitation or physical therapy regimen. Read on to learn more.

Smaller Skin-Like Stretchable Electronics for Wearables

Researchers at Stanford have been working on skin-like, stretchable electronic devices for over a decade. Recently, they presented a new design and fabrication process for skin-like integrated circuits that are five times smaller and operate at one thousand times higher speeds than earlier versions. Read on to learn more about it.

Rapidly Testing Stretchable Sensors

Engineers have developed a new technique for making wearable sensors that enables medical researchers to prototype and test new designs much faster and at a far lower cost than existing methods. Read on to learn more.