快猫短视频

Chemical ‘caterpillar’ points to electronics-free robots

Powered and controlled by an oscillating chemical reaction, a creeping strip of gel provides a glimpse of how future robots may do away with complex mechanical systems
[video_player id=鈥滵hP4QTuC鈥漖Video: This walking gel inches along like a looper caterpillar

A chemical gel that can walk like an inchworm, or has been demonstrated in a Japanese robotics lab.

The video above shows the material in action. It was created in the at Waseda University, Tokyo.

Shingo Maeda and colleagues made the colour-changing, motile gel by combining polymers that change in size depending on their chemical environment. This is based on an oscillating chemical reaction called the . The result is an autonomous material that moves without electronic stimulation.

The BZ reaction is one of a in which the concentration of one or more compounds periodically increases and decreases. As well as producing (video), it can even be used to perform calculations using a dish containing the pulsing patterns as a chemical brain.

Force amplifier

Polymers used in the gel shrink and grow in response to ruthenium bipyridine ions, alternately losing and gaining electrons in the cyclical reaction. That effect has been known for some time, but hasn鈥檛 been used to make a self-locomoting material on such a scale before, says Maeda.

鈥淚n previous work, the displacement of the mechanical oscillation of the gel was very small in comparison with the gel size,鈥 he told 快猫短视频.

Maeda and colleagues created a gel that magnifies the small changes in size by building tension into it. That produces its curved shape as well as amplifying the material鈥檚 response to the oscillating reaction inside itself.

The gel shown in the video above is able to move thanks to a notched surface. But Maeda is now working on a new version that lies flat on a normal surface and moves using a peristaltic motion, like an earthworm or snail.

Lab worm

Like the inchworm, this incarnation of the gel will still be limited to the lab bench, but these experiments demonstrate the potential of using oscillating chemical systems like the BZ reaction for tasks engineers usually achieve using electronics, says Maeda.

鈥淢echanical systems need complex fabricated circuits or external control devices because the mechanical motion is driven by on-off switching of external signals,鈥 he explains.

By comparison, chemical systems can be 鈥渟elf organised鈥 and generate their own control and mechanical signals from within, he says. Those abilities could be used to make some components of a future robot, while more conventional engineering is used for the parts for which only electronics will do.

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Topics: Robots