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Japanese paper-cutting art inspires flexible brain implants in China

Stretchable microelectrode arrays aim to overcome limitations of electrode technology, such as Neuralink

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Chinese scientists said the design of their stretchable microelectrodes was inspired by the Japanese art of paper cutting. Photo: ScienceNet
Victoria Bela
Chinese scientists have developed microelectrodes that can flex and move with the brain, potentially paving the way for more advanced and adaptable brain-computer interfaces, according to a study published by the peer-reviewed Nature Electronics.
The researchers from the Chinese Academy of Sciences said the design of the neuronal activity recorders was inspired by the Japanese art of kirigami, with its intricate 3D designs achieved by cutting and folding paper.
The scientists said their design set out to address the challenge of electrode displacement that has affected other brain-computer interface research, notably at Elon Musk’s Neuralink.
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The resulting soft microelectrode arrays were implanted into macaque monkeys, where they were able to move or flex with brain tissue to allow for the recording of hundreds of neurons simultaneously, according to the paper which appeared in the February 5 issue.

“The development of brain-computer interfaces requires implantable microelectrode arrays that can interface with numerous neurons across large spatial and temporal scales,” the researchers wrote.

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Brain-computer interfaces provide a direct link between brain activity and a computer, using electrodes to record neural signals that are then analysed to perform actions such as controlling robotic arms.

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