Researchers have developed the first biocompatible internal-ion-gated organic electrochemical transistor (IGT) that is fast enough to enable real-time signal sensing and stimulation of brain signals.

(Nanowerk Spotlight) The seamless integration of electronic devices with living tissue remains one of the most significant challenges in bioelectronics. Traditional electronic components are rigid and ...

(Nanowerk Spotlight) Implantable bioelectronic devices have immense potential for monitoring and treating a wide range of medical conditions by interfacing directly with biological tissues and organs.

In what is claimed to be a first, researchers in North Carolina have used a material’s persistent photoconductivity to stimulate neurotype cells, an advance that could lead to bioelectronic interfaces ...

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Interfacing biological and electrical systems has traditionally been done with metal electrodes, but something flexible can be more biocompatible. One possible option is 3D-printed bioelectric ...

Sahika Inal is an Associate Professor of Bioengineering at King Abdullah University of Science and Technology. Her research explores the mixed ionic and electronic charge transport in organic ...

The research article, “Ni-rGO Sensor Combined with Human Olfactory Receptor-Embedded Nanodiscs for Detecting Gas-Phase DMMP as a Simulant of Nerve Agents,” was published in ACS Sensors. Gas sensors ...