A KAIST research team has developed a highly stretchable microelectrode array (sMEA) designed for non-invasive electrophysiological signal measurement of organoids. The team was led by Professor ...

Carnegie Mellon University researchers have pioneered the CMU Array—a new type of microelectrode array for brain computer interface platforms. It holds the potential to transform how doctors are able ...

Figure 1. Schematic of highly stretchable MEA (sMEA) with protruding microelectrodes. On January 14th, the KAIST research team led by Professor Hyunjoo J. Lee from the School of Electrical Engineering ...

Spinal monitoring technology: A microelectrode array with hundreds of channels is placed directly on the spinal cord during surgery to record electrical activity and construct high-resolution 2D maps ...

The semi permeable lipid bilayer cell membrane separates different ion concentrations (charges) on the inner and outer side of the membrane. Therefore, the cell membrane has the electrical properties ...

Researchers at Carnegie Mellon University have used a nanoscale 3D printing technique that allows them to customize the microelectrode arrays used for brain computer interfaces. The approach is called ...

Abstract: Neural prosthetic devices are artificial extensions of body parts which allow a disabled individual to restore the body functions. Electrical interface using a neuroelectronic device is the ...

Abstract: To reduce the manufacturing difficulty and improve the functional expansibility of the silicon-based microelectrode array (Si-MEA), this paper reports a simple and time-saving MEMS ...