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submitted 1 year ago by will_a113@lemmy.ml to c/science@lemmy.ml

Scientists have figured out how to harness Brownian motion -- literally the thermal energy of individual molecules -- to make electricity, by cleverly connecting diodes up to pieces of graphene, which are atom-thick sheets of Carbon. The team has successfully demonstrated their theory (which was previously thought to be impossible by prominent physicists like Richard Feynman), and are now trying to make a kind of micro-harvester that can basically produce inexhaustible power for things like smart sensors.

The most impressive thing about the system is that it doesn't require a thermal gradient to do work, like other kinds of heat-harvesting systems (Stirling engines, Peltier junctions, etc.). As long as it's a bit above absolute zero, there's enough thermal energy "in the system" to make the graphene vibrate continuously, which induces a current that the diodes can then pump out.

Original journal link: https://journals.aps.org/pre/abstract/10.1103/PhysRevE.108.024130

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[-] TheChurn@kbin.social 4 points 1 year ago

This is exactly what it must be doing.

Graphene is above 0K -> the atoms have some thermal energy -> harvest some of that energy as electrical potential -> graphene cools down.

The most interesting application to me is that this could be use to remove heat at an interface without needing a thermal gradient to transport the heat.

[-] SmoothIsFast@citizensgaming.com 2 points 1 year ago

I mean that depends on how quickly it actually cools down the ambient Temps no? Plus we still can't make massive sheets of graphene if I am not mistaken so wouldn't the scale of this make that impossible at this stage? I'd see the benefit for powering micro sensors via ambient Temps though.

this post was submitted on 22 Aug 2023
130 points (97.8% liked)

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