To move closer to that future, Mizzou researchers are developing highly accurate AI models that can examine images of patients' skin and evaluate subtle visual patterns—including the size, shape, ...

Nanoelectronic biosensors are nanostructured semiconducting materials aimed at addressing nanomolecules to facilitate appropriate solutions for biological activities at the cellular level. The past ...

A new review highlights major advances in a promising class of diagnostic tools known as aptamer-based biosensors, which ...

A sensor that requires no nanoscale patterning detects single molecules of a breast cancer protein at concentrations 250 ...

Northwestern Engineering’s Joshua N. Leonard has developed a new method for engineering novel biosensors that can monitor a cell’s inner state. Leonard’s generalizable approach could potentially ...

Researchers have developed a new material that harnesses the power of enzymes more effectively. These materials have improved the reaction efficiency and long-term stability of enzymes in ...

Cancer therapy and synthetic biology are converging around a shared problem that has long frustrated oncologists and ...

BOT or NOT? This special series explores the evolving relationship between humans and machines, examining the ways that robots, artificial intelligence and automation are impacting our work and lives.

Scientists have developed an innovative technique to print biosensors, which can measure temperature, electrical heart signals and blood oxygen saturation, directly onto the skin at room temperature.

Researchers review scientific advances of electrolyte-gated carbon nanotube field-effect transistor biosensors, which are characterized by superior electronic properties and intrinsic signal ...