Semiconductor electronic devices can be made of either inorganic crystals, formed by the strong bonding of atoms and ions, or organic crystals, which demonstrate weaker bonds held together by van der ...

Researchers have announced that they have developed the first stand-alone, conformable, fully organic bioelectronic device that can not only acquire and transmit neurophysiologic brain signals, but ...

A bilayer organic transistor with off-on-off current output that can be used to make compact and efficient artificial spiking neurons. The field of wearable/implantable healthcare technology continues ...

Elliot's work on fully printed ion-selective organic electrochemical transistors in the CU Engineering news ! More info at https://www.colorado.edu/engineering/2022 ...

In recent years, many engineers have been trying to develop hardware components that could emulate the functions of various biological systems, including synapses, the human skin and nerves. These bio ...

THIN-based organic electrochemical transistor (OECT) developed by the IBS Center for Neuroscience Imaging was applied to the heart, anterior tibialis muscle, and cerebral cortex of rats. The device ...

(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 ...

As researchers make major advances in medical care, they are also discovering that the efficacy of these treatments can be enhanced by individualized approaches. Therefore, clinicians increasingly ...

Bell Labs has created a tiny new transistor and discovered a way to whip it up in a laboratory beaker. On Thursday, the research arm of Lucent Technologies unveiled a new organic transistor--made from ...