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Chinese scientists design world's first bio-inspired 3D e-skin

CGTN

This image shows the bio-inspired electronic skin with a 3D structure that mimics mechanical signals found in human skin. /Tsinghua University
This image shows the bio-inspired electronic skin with a 3D structure that mimics mechanical signals found in human skin. /Tsinghua University

This image shows the bio-inspired electronic skin with a 3D structure that mimics mechanical signals found in human skin. /Tsinghua University

A team of Chinese scientists has created the world's first bio-inspired electronic skin with a 3D structure that mimics three mechanical signals found in human skin.

With its intricate 3D distribution, sensory receptors in human skin adeptly perceive external forces and strain. By mimicking this spatial distribution, researchers from Tsinghua University developed an e-skin that replicates the structure of human skin, featuring its own "epidermis," "dermis" and "subcutaneous tissue."

This e-skin is capable of achieving simultaneous decoding and perception of three mechanical signals – pressure, friction and strain – at the physical level, according to the study published in the journal Science recently.

A screenshot of the study published in the journal Science, May 30, 2024.
A screenshot of the study published in the journal Science, May 30, 2024.

A screenshot of the study published in the journal Science, May 30, 2024.

"A patch of the e-skin, comparable in size to the tip of an index finger, is equipped with 240 metal sensors, each ranging from two to three hundred micrometers in size," said Zhang Yihui, the corresponding author of the study.

"Their spatial arrangement closely mimics the distribution of tactile receptor cells within human skin," Zhang added.

An illustration of design concept of the 3D e-skin. /Tsinghua University
An illustration of design concept of the 3D e-skin. /Tsinghua University

An illustration of design concept of the 3D e-skin. /Tsinghua University

The sensors amass signals that are meticulously processed and subsequently refined through deep learning algorithms, allowing the biomimetic skin to discern the texture and contours of objects with remarkable precision.

It exhibits a remarkable pressure position perception resolution of about 0.1 millimeters, rivaling the sensitivity of genuine human skin, according to the study.

The e-skin holds the potential to be integrated into the fingertips of medical robots for precise early-stage diagnostics and interventions. It can also be used as a band-aid to offer real-time monitoring of vital health metrics, including blood oxygen saturation and heart rate, according to Zhang.

Source(s): Xinhua News Agency
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