WEST LAFAYETTE, Ind. – Purdue University innovators are working on inventions to use micro-chip technology in implantable devices and other wearable products such as smart watches to improve ...

MEMS are helping to advance biomedical devices by leaps and bounds, but technical and business challenges remain. Charles Chung, Ph.D. Shown are different pressure sensor designs—each tailored to ...

Researchers from MIT have developed a 3D-printable tissue adhesive that demonstrates superior tissue adhesion, rapid sealing capabilities across various surgical scenarios and a unique blood-repelling ...

Artificial intelligence, synthetic biology and collaboration are the building blocks that could help biomedical engineers crack the next big discovery in addressing complex health issues. David Umulis ...

Researchers at the University of Oxford have developed a miniature, soft lithium-ion battery for biomedical applications like heart tissue defibrillation and pacing. The battery, made from ...

Mechanoelectrical energy conversion offers a promising solution for powering miniaturized biomedical devices, such as cardiac pacemakers, brain stimulators, wearable drug delivery systems, and more.

To advance soft robotics, skin-integrated electronics and biomedical devices, researchers have developed a 3D-printed material that is soft and stretchable -- traits needed for matching the properties ...

McGill researchers are exploring a new technique that uses 3D printing and hydrogels. It has the potential not only to improve biomedical implants but could also be useful in the development of ...

WEST LAFAYETTE, Ind. — Artificial intelligence, synthetic biology and collaboration are the building blocks that could help biomedical engineers crack the next big discovery in addressing complex ...

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