Contemporary artificial intelligence (AI) systems, such as the models underpinning the functioning of ChatGPT, image ...

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

Princeton University researchers have developed 3D-MIND, a flexible electronic mesh that integrates directly into living 3D networks of brain cells. The system can monitor and stimulate neural ...

Researchers used 3D printing and capillary action to create customizable neural chips, expanding design freedom for brain research, biosensors and biocomputing. (Nanowerk News) Cultured neural tissues ...

In a recent study published in Cell Stem Cell, researchers produced three-dimensional (3D) bioprinted human brain tissues, allowing for the creation of functioning neural networks that could simulate ...

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 ...

Researchers at Princeton University have developed a hybrid biocomputing platform that combines living brain ...

Scientists studying human neural organoids could only record and stimulate activity from limited regions because conventional flat electronics do not conform well to the tissues’ three-dimensional, ...

AI thrives on data but feeding it the right data is harder than it seems. As enterprises scale their AI initiatives, they face the challenge of managing diverse data pipelines, ensuring proximity to ...