A research team has developed a printing-based selective metal film deposition technique that enables the facile and fast fabrication of...
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To advance soft robotics, skin-integrated electronics and biomedical devices, researchers at Penn State have developed a 3D-printed material that is soft and stretchable—traits needed for matching the properties of tissues and organs—and that self-assembles. Their approach employs a process that eliminates many drawbacks of previous fabrication methods, such as less conductivity or device failure, the team said.
A research team has developed a printing-based selective metal film deposition technique that enables the facile and fast fabrication of...
Sarcomas as rare cancers that develop in the bones and soft tissues, including fat, muscles, blood vessels, nerves, deep skin tissues and fibrous...
After thousands of years as a highly valuable commodity, silk continues to surprise. Now it may help usher in a whole new direction for...
A new study by University of Massachusetts Amherst researchers demonstrates the effectiveness of homemade play putty at reading brain, heart, muscle...
A review by scientists highlights cutting-edge engineering innovations in developing sensors and devices for personalized pain management.
The United Counties of Leeds and Grenville has announced a workshop to showcase non-traditional construction methods being used in the...
The United Counties of Leeds and Grenville has announced a workshop to showcase non-traditional construction methods being used in the...
In recent years, electronics engineers have developed a wide range of wearable and implantable devices that can detect and record biological signals....
In recent years, electronics engineers have developed a wide range of wearable and implantable devices that can detect and record biological signals....
Advanced wearable sensors can detect early signs of brain disorders through eye movements, offering a non-invasive solution for monitoring brain...