A group of researchers at the University of Tokyo led by Professor Takao Someya developed an ultra-thin biomedical device that securely stick to the human skin. It has a stretchable display that shows ...

Modern wearable sensors equipped with nanomaterials and nano-additives are more efficient, sensitive, and accurate than conventional healthcare sensing mechanisms. 1 The incorporation of ...

3D printing is used to create real-life 3D objects from a digital model, facilitating the realization of ideas and concepts with high accuracy. Various 3D printing technologies exist, including ...

Complementary metal-oxide-semiconductor (CMOS) technology now offers state-of-the-art imaging capabilities necessary for a number of biomedical applications, but the question is, can it supplant the ...

The revolution in personalized medicine is well underway – with wearable devices and DIY home testing, it’s easier than ever to track everything from heart rate, to glucose levels, to microbiome ...

This special Collection aims to showcase cutting-edge research and review articles that explore the integration of machine learning techniques in biomedical sensing, with a particular emphasis on ...

IMEC has successfully demonstrated the full wafer-scale fabrication of nanopores using ASML’s state-of-the-art extreme ultraviolet (EUV) machines.

In biomedical practices, many electronic devices are used to perform diagnosis, treament and other functions. However, electronics are usually very hard, and cannot comply with the complex geometries ...

Healthcare data breaches are not only costly but potentially life-threatening. Altered or corrupted medical data can lead to ...

REDWOOD CITY, Calif. - Proteus Biomedical Inc., a pioneer in intelligent medicine, entered into an exclusive worldwide license and collaboration agreement with Novartis to develop and commercialize ...