In the book entitled Microfluidic Systems for Cancer Diagnosis, the UPV/EHU’s Microfluidics Cluster group describes the process for building a bioelectronic device consisting of gold electrodes coated ...

A chance discovery led a team of scientists from Rice University, University of Cambridge and Stanford University to streamline the production of a material widely used in medical research and ...

Self-sustainable bioelectronic devices that incorporate physiological synchronization functions are attracting increasing research interest because they could provide the variable functions required ...

Early bioelectronics were rigid, bulky devices like pacemakers that did their jobs but didn’t mesh well with flesh. In recent years, scientists have created bioelectronic sensors and stimulators made ...

Spatiotemporal resolution is a cornerstone of bioelectronics, enabling precise observation and control of biological events at the molecular, cellular and tissue levels. In this Review, we analyse ...

Peripheral nerves—the network connecting the brain, spinal cord, and central nervous system to the rest of the body—transmit sensory information, control muscle movements, and regulate automatic ...

Several medications are available to treat high blood pressure, but more than 10 million Americans do not respond to the treatments, according to the American Heart Association. Using a bioelectronic ...

Metastasis is the leading cause of death in cancer, occurring when a cell leaves the primary tumour, passes into the bloodstream and lymphatic system and reaches distant organs. Non-invasive ...

Bioelectronic devices, neural interfaces, biosensors and AI hardware are now easier to make thanks to a streamlined method for fabricating a key material. A chance discovery led a team of scientists ...