4 The electronic circuitry of the biosensor transmits the signal to a visual display on the device itself or, in many cases, to a smartphone. This allows wearable biosensor users to monitor these ...

Recent advancements in biosensing technologies have paved the way for revolutionary diagnostic and treatment methods that prioritize speed, accuracy, and ...

A chance discovery led a team of scientists from Rice University, University of Cambridge and Stanford University to ...

Researchers at the Wyss Institute have developed a coating technology that improves the longevity of implantable and wearable ...

Wearable and implantable biosensors that can accurately detect biological molecules in a non- or minimally invasive manner have vast potential for monitoring patients' physiology and response to ...

The team tested the device using aerosolized inactivated viruses to evaluate the performance of the sensor unit. The machine sampled the air continuously, providing a readout every 5 min, and ...

The department’s biosensors and biomedical instrumentation research focuses on the development of novel devices for monitoring the physiological and biochemical state of the human body. Areas of ...

Improving aflatoxin B1 detection, the ZnO-NPs/curcumin nano-biosensor integrates innovative techniques for enhanced ...

Graphene e-tattoos are wearable biosensors that stick directly to the skin Researchers are now developing patches that can read compounds in sweat These could indicate a range of conditions ...

"This biosensor is the first of its kind," said Chakrabarty, speaking of the technology used to detect airborne virus and bacteria particles. Scientists have previously had to use slower detection ...