Researchers have developed a flexible 3D bioelectronic device that integrates living brain cells with embedded electronics, ...

Neurotech Reports today announced that Thomas Stieglitz, Ph.D., a globally recognized expert in neural engineering and ...

Researchers at Princeton University have developed a three-dimensional bioelectronic device that integrates living brain cells with embedded circuitry to perform pattern recognition tasks. Biological ...

A new hydrogel electrolyte enables fast, low-power solid-state circuits for implantable bioelectronics, offering high precision, stability, and compatibility with complex neural systems. (Nanowerk ...

Electrical stimulation of vagus nerve via implantable stimulators can effectively suppress inflammatory responses, offering a novel strategy for treating autoimmune diseases. However, traditional ...

(Nanowerk Spotlight) Implantable bioelectronic devices have immense potential for monitoring and treating a wide range of medical conditions by interfacing directly with biological tissues and organs.

Researchers at Princeton University and the University of Cambridge have announced separate advances in brain-inspired computing that could reshape AI hardware. Princeton created a 3D bioelectronic ...