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  • We have spent years dreaming up a future

  • with robots, for better or for worse.

  • Theyre either super sweet like Bicentennial Man

  • and WALL-E or super terrifying like in iRobot or the Terminator.

  • But what if I told you scientists have been

  • making robots that you can’t see or hear

  • as they creep up on human civilization.

  • That’s right, scientists are working on making very tiny robots.

  • In the future, these nanobots might be

  • able to deliver drugs anywhere in the body,

  • clean up oil spills and do a lot more.

  • Time to learn about the rise of the molecular machines.

  • [Reactions splash]

  • These incredibly small gadgets are made from molecules that are orders

  • of magnitude smaller than a human cell.

  • They move, change form, and -- most importantly

  • do work on their environment, all thanks

  • to scientists controlling their chemical and physical properties.

  • So far, scientists have created molecular motors,

  • switches, shuttles, turnstiles, and even nanocars.

  • Let’s start off with the smallest molecular

  • machine building block: molecular switches.

  • Here is Dan Claes from the University of Nebraska:

  • Dan: “Like light switches, molecular switches

  • go on or off, thanks to molecules undergoingconformational changes.”

  • Those are simply changes in structure -- theyve still

  • got all the same atoms attached in the same order,

  • but they can bend or twist in response to a stimulus, sort of like a beach chair

  • that you can fold and unfold.

  • By shining UV light, changing temperature, or

  • prompting chemical reactions in other ways,

  • scientists can force these molecular switches to undergo conformational changes

  • and thus switch on or off.”

  • Switches are so basic, though.

  • These molecular machines can get way more complex.

  • They can be 3-D, they can be DNA-based, they can walk, I could go on.

  • So scientists are working toward building molecular

  • machines built from many tiny robots working

  • together toward collective motion..

  • So, in theory, nanoscale machines could

  • move things at a macro level.

  • Not macro like helping you move your TV.

  • But macro like proteins and cells.

  • Why does that matter?

  • Dan: “Well, think about how our muscles work.

  • When you contract your muscles, whether to lift

  • something heavy, like your TV, or just put on a gun

  • show, your muscle isn’t working as one big machine.

  • It’s millions of tiny muscle cells, and inside

  • those muscle cells, even tinier sarcomeres that

  • make your muscle fibers contract and extend.

  • Sound familiar?

  • There have been some attempts to make nanobots

  • to work as artificial muscles.

  • These are light-activated nanosheets sliding in

  • a motion similar to natural muscle fibers.

  • Much like real muscles, these tiny machines

  • movement cause a much larger movement,

  • relative to their own size.”

  • So in the future, this means we could potentially

  • implant artificial muscles into our bodies.

  • Another cool application would be transporting

  • nanocargo such as drugs or even information

  • around our bodies and in the environment.

  • These single-molecule-sized nanocars and

  • nanotrucks have spherical wheels, rotating axles,

  • and a molecular chassis and can be powered by

  • shining light or using other chemistry tricks.

  • On a larger scale, microrockets and microsubmarines

  • can also move around and deliver larger cargo.

  • For example, microsubmarines could be

  • unleashed in order to capture and remove

  • oil in the event of massive oil spills.

  • Both of these micromachines work by reacting with surrounding solutions to form gas bubbles

  • that propel the microvehicles around.

  • And they pick up and drop off cargo also using

  • chemistry -- they can pick up oil in water

  • through hydrophobic interactions or could

  • pick up magnetized cargo by adjusting surrounding magnetic fields.

  • Dan: “All of this sounds great.

  • But there are still plenty of examples of other

  • technologies that beat out molecular machines

  • on efficiency, speed, and capabilities.

  • These miniature workhorses use much less

  • energy compared with bigger machines,

  • but scientists still have to figure out how to take

  • advantage of that before nanobots can work for us.

  • We can eventually take this nanoscale

  • motion and create macroscale results.

  • But youll still have to ask your friends to help you move.

  • Sorry.”

  • What’s your favorite robot?

  • Well accept full-size robots.

  • R2D2? Optimus Prime? Bender?

  • Let us know in the comments.

  • For more small science, check out our episode

  • on what an atom actually looks like.

  • Or find out what’s inside your iPhone without breaking it open.

  • And subscribe for more weekly chemistry videos.

  • Thanks for watching.

We have spent years dreaming up a future

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B1 中級 美國腔

世界上最小的機器人。納米機械的崛起 (The World's Smallest Robots: Rise of the Nanomachines)

  • 67 5
    趙御辰 發佈於 2021 年 01 月 14 日
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