charles_f 4 years ago

Nope. Not reproduced since then. One of these classic "hey I've discovered an effect that is not properly isolated and contradicts brownian motion. Everything we know is probably wrong, let's publish about it rather than try to understand what we screwed up" moments.

Animats 4 years ago

This is from 2020.

Since the followup isn't "Arkansas Graphene Power 10GW plant comes online", it probably doesn't generate "clean, limitless power".

  • godelski 4 years ago

    At least not cheaply. As far as I'm aware (may be wrong) we still are unable to build graphene at scale, let alone graphene circuits.

  • tbrownaw 4 years ago

    A previous time this came up, I had the impression that what it really does is extract energy from a temperature difference between the graphene and the load, which is in principle perfectly normal even is it's a new way to arrange the details.

    Edit: missed the link to the abstract.

    > However, there is power dissipated by the load resistor, and its time average is exactly equal to the power supplied by the thermal bath.

    So yeah, extracting power from a thermal bath sounds exactly like capturing energy as it flows down a temperature gradient.

joak 4 years ago

Excerpts: "A team of University of Arkansas physicists has successfully developed a circuit capable of capturing graphene's thermal motion and converting it into an electrical current."

"The idea of harvesting energy from graphene is controversial because it refutes physicist Richard Feynman’s well-known assertion that the thermal motion of atoms, known as Brownian motion, cannot do work."

  • hanniabu 4 years ago

    Sounds like a piezo sensor

    • willis936 4 years ago

      As a freshman EE I suggested this as a potential source of power. Got bad marks on the assignment.

      There's nobody to give this research group bad marks.

  • wrycoder 4 years ago

    The thermal motion of atoms in a coal fire can do work just fine. All you need is a steam engine and a cold reservoir.

  • vba616 4 years ago

    It seems odd to mention Feynman here even if he did say it. Surely he wasn't the only or first person?

    • sedatk 4 years ago

      Surely he was joking.

      • kklisura 4 years ago

        I see what you did there

    • mwt 4 years ago

      Maybe this is it?

      > first analysed in 1912 ... by Polish physicist Marian Smoluchowski. ... popularised by [Feynman] in a physics lecture at the California Institute of Technology on May 11, 1962,

      https://en.wikipedia.org/wiki/Brownian_ratchet

    • kergonath 4 years ago

      It’s an allusion to the Brownian ratchet thought experiment. AFAIK he demonstrated why it does not work.

TeeMassive 4 years ago

I didn't read the whole article, but from the schematics it looks like they are exploiting thermal electronic noise and applying a half-bridge rectifier to it so it produces very low voltage power.

On one hand, it's clearly bullshit due to the extravagant title claiming to violate the 2nd law of thermodynamics. On the other hand, if a system is sufficiently small than it can violate the 2nd law, locally. It seems the tour de force in this case is that the scale can be somewhat enlarged by the very low power of thermal electronic noise.

  • n8ta 4 years ago

    “This means that the second law of thermodynamics is not violated, " -Paul Thibado, professor, physics.

    Title is awful ofc but the actual scientist of course never claimed this.

mlindner 4 years ago

Headline like these are automatically ignorable. Why is this even upvoted. "Limitless" power is just always false.

  • steve_adams_86 4 years ago

    Even in utopian depictions of the future energy tends not to be limitless. Extremely abundant maybe, but never limitless. It seems strange to even pursue it.

    • mlindner 4 years ago

      In any possible Utopian future, our energy usage will expand to match our energy production. As more energy is produced, more uses is found to use it.

catlifeonmars 4 years ago

TFW you see “Limitless” and “Power” in the same sentence.

joak 4 years ago

Producing electricity from Brownian motion ?!

The_rationalist 4 years ago

It's been two years, what is their progress? It has probably failed to be exploitable then ?

  • polemic 4 years ago

    Quick Google search finds the concept being used in medical sensors. https://www.sciencedaily.com/releases/2022/03/220301205420.h...

    When correctly shaped, graphene can harvest energy from motion, such as human body movements, and store it as electrical energy in micro-supercapacitors.

    • civilized 4 years ago

      Motion is one thing, thermal motion is another.

      Clocks that wind themselves up from being jostled around are centuries old. But thermal energy is supposed to be maximally disordered and thus unable to be converted to a more ordered form like electricity.

curious_cat_163 4 years ago

Limitless energy? Doesn’t that violate the first law?

Is this clickbait? Or, is there actual basis to the claim?

Kindly, someone who knows about this space elaborate?

  • plebianRube 4 years ago

    I would read the article, it is easy to read and accessible.

    Here's the meat though.

    "Thibado’s team found that at room temperature the thermal motion of graphene does in fact induce an alternating current (AC) in a circuit, an achievement thought to be impossible.

    According to Kumar, the graphene and circuit share a symbiotic relationship. Though the thermal environment is performing work on the load resistor, the graphene and circuit are at the same temperature and heat does not flow between the two.

    That’s an important distinction, said Thibado, because a temperature difference between the graphene and circuit, in a circuit producing power, would contradict the second law of thermodynamics."

    • willis936 4 years ago

      A circuit producing power without a temperature difference contradicts the second law of thermodynamics, which is what Thibado is claiming to have done.

    • roywiggins 4 years ago

      Hard to see how this works when Brownian ratchets don't.

      Also: "Léon Brillouin in 1950 discussed an electrical circuit analogue that uses a rectifier (such as a diode) instead of a ratchet. The idea was the diode would rectify the Johnson noise thermal current fluctuations produced by the resistor, generating a direct current which could be used to perform work. In the detailed analysis it was shown that the thermal fluctuations within the diode generate an electromotive force that cancels the voltage from rectified current fluctuations. Therefore, just as with the ratchet, the circuit will produce no useful energy if all the components are at thermal equilibrium (at the same temperature); a DC current will be produced only when the diode is at a lower temperature than the resistor."

      https://en.wikipedia.org/wiki/Brownian_ratchet

      • AnimalMuppet 4 years ago

        But if the diode at a lower temperature than the resistor can generate current, then the current should raise the temperature of the resistor, meaning that it will stay running.

        That seems unlikely, as I understand thermodynamics. Can anyone explain?

        • sidewndr46 4 years ago

          Current in a resistor will raise the resistor's temperature.

          Current in a diode also raises the diode's temperature.

        • irjustin 4 years ago

          It takes work to keep the diode at a lower temp.

        • roywiggins 4 years ago

          The diode won't be at a lower temperature for very long.

    • theamk 4 years ago

      This is pretty meaningless argument though. Ok, maybe it does not contradict the second law of thermodynamics. It still contradicts the conservation of energy though, and that's what matters!

      (It also does not contradict law of conservation of momentum, Boltzmann law, and San Francisco parking rules. Who cares?)

      • vba616 4 years ago

        The abstract doesn't appear to me to say anything about violating known physical law.

        They are claiming it all works as theory predicts, I think.

        What is missing for me is an explanation why this is in fact interesting to a layperson.

        "At room temperature, micron-sized sheets of freestanding graphene are in constant motion, even in the presence of an applied bias voltage. We quantify the out-of-plane movement by collecting the displacement current using a nearby small-area metal electrode and present an Ito-Langevin model for the motion coupled to a circuit containing diodes. Numerical simulations show that the system reaches thermal equilibrium and the average rates of heat and work provided by stochastic thermodynamics tend quickly to zero. However, there is power dissipated by the load resistor, and its time average is exactly equal to the power supplied by the thermal bath."

        I guess it sounds like they are saying the graphene is all wibbly-wobbly at room temperature, and applying a kind of damping mechanism temporarily produces power. Very temporarily.

        I'm not quite sure why this should or should not be possible. If they say it's initially not at equilibrium though, that means they aren't suggesting new physics, right?

    • hasmanean 4 years ago

      AC, eh?

      680kHz perhaps?

      The first thing they should do it hook up this radio frequency “AC” to a speaker and see if it sounds like country music or traffic reports.

      AC in a high impedance circuit is practically unavoidable, graphene or not.

  • willis936 4 years ago

    It is nonsense. The claim is that a machine exists that violates the 2nd law of thermodynamics (definition of a perpetual motion machine, Maxwell's Demon). This is well trodded ground.

    https://youtu.be/rckrnYw5sOA

analog31 4 years ago

Did this team discover Johnson noise?

nborwankar 4 years ago

Is this meant to be an early April Fools joke?