Symmetrical Gear Spins One-Way, Harvesting Surrounding Chaos

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Hereā€™s a novel ratchet mechanism developed by researchers that demonstrates how a single object ā€” in this case a gear shaped like a six-pointed star ā€” can rectify the disordered energy of its environment into one-way motion.

The Feynmanā€“Smoluchowski ratchet has alternating surface treatments on the sides of its points, accomplished by applying a thin film layer to create alternating smooth/rough faces. This difference in surface wettability is used to turn agitation of surrounding water into a ratcheting action, or one-way spin.

This kind of mechanism is known as an active Brownian ratchet, but unlike other designs, this one doesnā€™t depend on the gear having asymmetrical geometry. Instead of an asymmetry in shape, thereā€™s an asymmetry in the gear tooth surface treatments. You may be familiar with the terms hydrophobic and hydrophilic, which come down to a difference in surface wettability. The gearā€™s teeth having one side of each is what rectifies the chaotic agitation of the surrounding water into a one-way spin. Scaled down far enough, these could conceivably act as energy-harvesting micromotors.

Want more detail? The published paper is here, and if you think you might want to play with this idea yourself there are a few different ways to modify the surface wettability of an object. High voltage discharge (for example from a Tesla coil) can alter surface wettability, and there are off-the-shelf hydrophobic coatings weā€™ve seen used in art. Weā€™ve even seen an unusual clock that relied on the effect.



from Blog ā€“ Hackaday https://ift.tt/usD6FCq

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