Medical Xpress

Stretchable microelectrode array enables non-invasive signal monitoring in organoids

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 ...
Nature

Microelectrothermoforming (μETF): one-step versatile 3D shaping of flexible microelectronics for enhanced neural interfaces

Increasing the proximity of microelectrode arrays (MEA) to targeted neural tissues can establish efficient neural interfaces for both recording and stimulation applications. This has been achieved by ...
Nature

A novel bio-mimicking, planar nano-edge microelectrode enables enhanced long-term neural recording

Our inability to accurately monitor individual neurons and their synaptic activity precludes fundamental understanding of brain function under normal and various pathological conditions. However, ...
EurekAlert!

KAIST research team develops stretchable microelectrodes array for organoid signal monitoring

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 ...
EurekAlert!

No etching, more precision: a simpler way to build brain interfaces

Fabrication process and actual image of the silicon-based neural microelectrode array. a 1800 μm thick double-polished silicon wafer. b Microneedle array root fabrication with etching. c Microneedle ...