Nano-Scale Robot Arm Moves Atoms With 100% Accuracy 266
destinyland writes "A New York professor has built a two-armed nanorobotic device with the ability to place specific atoms and molecules where scientists want them. The nano-scopic device is just 150 x 50 x 8 nanometers in size — over a million could fit inside a single red blood cell. But because of its size, it's able to build nanoscale structures and machines — including a nanoscale walking biped and even sequence-dependent molecular switch arrays!"
Exponential Growth (Score:5, Funny)
So, the first one builds a friend, then each builds a friend, and each of those builds a friend. Soon enough there will be millions, and they will be able to invade your blood cells!
I for one welcome our nano sized robot overlords
Re:Exponential Growth (Score:5, Funny)
Because they are nano sized would that not make them under lords?
Re:Exponential Growth (Score:5, Funny)
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They control our physiology, but we control their programming, so they may be some kind of meta-lords.
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The Jack Putter machine: zero defects!
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Re:Exponential Growth (Score:4, Funny)
I think Scientology has a copyright on "Inner Lords."
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Inner lords, I think, they being inside our blood cells and all.
Inner white blood cell lords is more like it, as our immune system goes ballistic trying to mop up all the muck.
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While they're there, I hope they'll take out this nasty Candida yeast infection!
Re:Exponential Growth (Score:4, Funny)
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The researcher's name is Dr. Seeman.
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So, the first one builds a friend, then each builds a friend, and each of those builds a friend. Soon enough there will be millions...
Sounds like Amway.
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DON'T PANIC. They'll probably just be swallowed by a dog before we even realize they're attacking us.
Re:Exponential Growth (Score:4, Insightful)
So, the first one builds a friend, then each builds a friend, and each of those builds a friend. Soon enough there will be millions, and they will be able to invade your blood cells!
You mean, like a bacterial or viral infection?
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So, the first one builds a friend, then each builds a friend, and each of those builds a friend. Soon enough there will be millions, and they will be able to invade your blood cells!
I've got a clever plan to stop them. I treat my body poorly, so my blood cells and the rest of me will be in such bad shape that the invaders will be disgusted by the slum-like living conditions and leave. So while all you healthy people are dismantled by the Evil Nanobot Horde, they'll just leave me alone! I shall outlive all of you! Now hand me the phone, I'm gonna order some buckets of chicken.
Re:Exponential Growth (Score:5, Funny)
Its the next big thing.
Re:Exponential Growth (Score:4, Insightful)
There's a positive side (Score:2)
I only hope the nanobots will be able to turn my grey hairs back to their original color.
And let my eyes focus to short distances again. Get my blood pressure back to normal. Let me drink at will and still have all my sexual prowess left...
Re:There's a positive side (Score:4, Funny)
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Just because she calls it nano doesn't mean....aw.
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Intel's going to be pissed.
Did we just break heisenberg's principle? (Score:5, Interesting)
If it can move and place particles with 100% accuracy then at least at some point we know both where it is and how fast it's moving...
Re:Did we just break heisenberg's principle? (Score:4, Insightful)
Isn't that only for sub atomic particles? This is moving the atoms themselves.
Exactly (Score:5, Interesting)
Exactly. Moving individual atoms and placing them where we want them is about as fine grained as we can get before we run into the Uncertainty Principle.
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So it’s not 100% accuracy. Obviously. It’s accurate on an atomic level.
Not on a quantum level. Because that is impossible.
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h >= dp * dx / 2 * pi
Modded informative? This equation is backwards.
h is a lower bound on certainty, not an upper bound.
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Typo: I wrote the inequality backwards (Score:4, Informative)
Ack!! Thank you!
h <= dp * dx / 2 * pi
is of course the correct equation. Note that the text was correct; I just fat-fingered the inequality.
Re:Typo: I wrote the inequality backwards (Score:5, Funny)
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Momentum is mass times velocity in classical physics, but not in quantum physics. Velocity in QP is defined as the time derivative of the expectation value of the position. This is not guaranteed to be the same as the expectation value of momentum divided by mass.
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True, but that doesn't help illuminate my point: heisenberg's uncertainty principle applies, but generates a much smaller minimum uncertainty in velocity and position for more massive objects than it does for e.g. an electron.
Re:Did we just break heisenberg's principle? (Score:5, Funny)
>>Isn't that only for sub atomic particles? This is moving the atoms themselves.
No, the uncertainty principle applies to particles as well. All matter exhibits wave-particle duality (the De Broglie wavelength). Even relatively large molecules like C60 fullerenes have been shown to diffract through a slit.
Re:Did we just break heisenberg's principle? (Score:5, Informative)
Re:Did we just break heisenberg's principle? (Score:5, Funny)
i don't know why this is rated funny,
beavis only saw "diffract through a slit"
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Schroedinger's cat (Score:3, Funny)
With all the misinformation in this thread, Schroedinger's cat is rolling over in its grave... with probability one half.
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Atoms are large enough that something like this can work despite the required uncertainties in both position and velocity.
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Re:Did we just break heisenberg's principle? (Score:5, Insightful)
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Hey, if that is what they mean, could we guarantee which isomer of a molecule we get? That could come in handy.
Or it'll result in stuff like Phentermine jumping up the ranks of Scheduled chemicals.
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How would they work?
Re:Did we just break heisenberg's principle? (Score:5, Funny)
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"Why aren't we moving?" "I'm lost"
Bloody woman
DNA (Score:5, Interesting)
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Well, a good portion of DNA is now known to fit the description "sequence driven molecular switch arrays." I would say the answer is a resounding 'Yes!'
The follow-on question - after determining which switches to throw for me to grow wings - how long before I go through probate to change my name to Warren Worthington?
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Why wait to change your name?
Wings or not, you are still going to have the same problems with gravity as everyone else.
I guess once you build your (enormous) space habitat it might be cool to have wings.
Science has triumphed once more!!!! (Score:4, Funny)
Now it is possible to build the perfect woman! Of course, it'll take a few thousand years to get her fully assembled.
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Do you still find the same women attractive as you did 10 years ago, and is there just one such person?
I certainly do...we met in high school back in 1999 (I was class of 2002, she of '03). Love at a distance sort of thing. Unfortunately, one or the other of us were always dating someone, so there was never an opportune time to get together...we have been friends off and on since we met, but never got together. A bit over two years ago, I suffered navicular fractures in both of my wrists. She happend to randomly call me (hadn't seen each other in around 6 months) and came over to help me out. We both ha
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So your making that broad of an assumption based solely on my age and the story of how I met the woman I'm going to marry? Sounds like you are the naive one.
You know what? It doesn't matter. We know. That's all I care about.
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Give it 10 years, there's no such thing as a couple that doesn't fight. The GP was mentioning there does not exist a perfect woman.
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Doesn't fight? Obviously, you haven't spent a week in our house. We fight a lot...and it's always over something stupid. Sometimes, one or the other person will instigate it for no reason at all. Why do we do this, you may wonder? Because we both have horrible tempers and we know it. By picking fights about the little things, we are able to expel any pent up energy. To an outsider, we fight on an almost daily basis. That isn't really true though...we get rid of tension and anger WITH each other, not
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Your perfect woman wouldn't need to have arms or legs?
Assuming you're the typical immature online male, and this "perfect woman" is for purely sexual purposes, there are quite a few things that can't be done without arms or legs.
Her on top, doggy, hand jobs, etc.
And if you're not a typical immature male, and you actually want a relationship with this "perfect woman," then you're pushing around an invalid strapped into a wheelchair, who you made that way by choice/laziness.
She may be the perfect woman, but y
A New York professor (Score:3, Funny)
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"Success Rate" not "Accuracy" (Score:5, Informative)
If we go to the referenced Nature article abstract [nature.com] we see that the development "yields programmed targets in all cases."
The correct terminology then would be "100% Success Rate" not "100% Accuracy".
P.S. Presumably "success" is defined by something like "90% Accuracy", to put an ironic spin on it. But it makes no sense to speak of accuracy in terms of percentage without a reference, such as "a single atom". So the criteria was probably something like X nanometers accuracy.
Re:"Success Rate" not "Accuracy" (Score:4, Interesting)
"100% Accuracy" implies a positional error of zero meters (to infinite decimal places), which is obviously not what they're talking about.
I caught that, too. But really "percent" doesn't even make sense as a unit of accuracy, does it? Unless it's fractional, in which case I'd take it to mean that if you want to make a relative move of x, you'll get something in the range (0,2x) or maybe (0.5x, 1.5x)? I mean, on the nano scale that's still kind of remarkable, but as you've pointed out it's just not what they mean. /pedantic
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Anyways, as the pp said, this is really just an example of poor reporting. The actual article doesn't really make this kind of claim, in fact the word "accuracy" doesn't even appear in TFA. They'd never get published in Nature (it's actually Nature Nanotechnology) saying something was "100% accurate" because it doesn't make any sense formally.
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"100% Accuracy" implies a positional error of zero meters (to infinite decimal places), which is obviously not what they're talking about.
By physical, and not mathematical, definition, wouldn't 100% accuracy mean a positional error of 1 Planck length, instead of infinitely approaching zero meters?
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Sex Panther by Odeon.
They say that 60% of the time, it works every time.
That doesn't even make sense!
Ooops! Dropped one (Score:2)
Oooops! Dropped one. For what period of time did it achieve 100%?
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Duh.
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And that's what you're gonna get, lad. The strongest robot arm in these lands.
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You bumped me with your NANO ARM! (Score:2)
Watch where you are going with that thing, Mr, or you are going to find my Nano Fist in your face!
almost a year old (Score:2, Informative)
The Nature Nanotechnology article is almost a year old. There are lots of people working on similar stuff, here's a review which mentions the Seeman work among many others (you probably need a library subscription to see the article, but the abstract should be accessible at least):
http://journals2.scholarsportal.info/details-sfx.xqy?uri=/14394227/v10i0015/2420_catdn.xml [scholarsportal.info]
Just a thought..... (Score:5, Insightful)
I don't know a heck of a lot about nanorobots and such, so I don't know whether it's possible or not, but if placing atoms with 100% accuracy is possible, shouldn't it also be possible to _remove_ atoms with 100% accuracy?
In that case, would it be possible to build something that disassembles atmospheric carbon dioxide, and build pencil lead and release oxygen in the process?
Of course, then you get into the problem of the energy stored in chemical bonds, and the energy required to overcome that. I have no idea if/how that applies to nanoscale robots, since they're mechanically working on individual atoms, rather than a bulk chemical reaction.
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What do you mean "then you get into the problem..."? That IS the problem!
In a less
Re:Just a thought..... (Score:5, Informative)
It's still a chemical reaction, it's just a very precisly controlled one. You would still have to add energy to break the bond in a molecule of CO2. I suspect that if someone goes through all the trouble to do that, they'll have it produce diamonds instead of pencil lead, since at least then you can sell the result and maybe make a bit of profit off of it (though not for long, what with economies of scale and everything. If this is really possible in large scale diamond will be cheaper than glass someday).
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Misleading headline (Score:3, Interesting)
The article is about protein folding and manipulating DNA. It has nothing to do with a robot that picks up atoms and places them somewhere else.
Re:Misleading headline (Score:4, Informative)
Actually, the article is about using a DNA strand to place individual atoms where you want with a 100% success rate. Basically, its using the DNA strand as a robotic arm, in that it does exactly what you would expect a robotic arm to do.
To paraphrase an old chestnut.. (Score:5, Funny)
yes, but where the scientists want them and where the scientists have told its programs to put them are two different things!
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Joke video (Score:2)
Anyway, this reminded me of that. Also when you are talking about something that small, how do you prove that they are doing what they are saying th
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Oh, boy! (Score:2)
Here comes the first wave attack of the replicators...lucky I am a close friend of Thor!
Slashdotted... (Score:2)
Is the server being powered by a tiny nanobot that responds to the on and off states of the transistors via direct manipulation? Maybe the 'nanoscale walking biped' is powering the server by running on a nanoscale hamster wheel to generate electricity? These are all questions I wouldn't have to post if only I could RTFA...
Two scientists, one nanobot? (Score:2)
In a 2009 article in Nature Nanotechnology, Dr. Seeman shared the results of experiments performed by his lab,
So in the history books of the future, we can read: “The first generation of our glorious overlords, were conceived with the power of the giant intelligent Seemæn. All hail the Hypnobot!”
No Grey Goo... (Score:2, Informative)
Terrible, Terrible Summary (Score:3, Informative)
First, the researchers made a nanodevice with two slots that could accommodate so-called "DNA cassettes" in a programmable way. The DNA cassettes themselves have free ends that can only bond with complementary DNA. Each of the DNA cassettes has an 'A' end (that can only bond with other A-type molecules) and a 'B' end (I'm simplifying this greatly; 'A' has nothing to do with adenine). The cassettes can be inserted into the two slots with either the 'A' end up or the 'B' end up. So this means there are a total of four states for the device: (1) first slot: A up, B down; second slot: A up, B down; (2) first slot: A down, B up; second slot: A up, B down, etc. The researchers were then able to take four target molecules (one for each of the four programmable states) and show that they bonded to their complementary state. Further, by developing an error-correcting scheme, they were able to get the fidelity of the bonding to 'apparently flawless' levels (quoting FTA, more on this in a sec).
A little more explanation is in order. All of the target molecules have an 'A' and 'B' marker on both ends of their strand. Now, say for example the nanodevice is in state 2: 1A down, 1B up, 2A up, 2B down. The complementary molecule to bind this state would have four markers with 'A' oriented downward and 'B' oriented upward on one end of the strand, and 'A' orented upward and 'B' oriented downward on the other end of the strand. The problem with this is that other target molecules which aren't complementary can still bind. For example, the target for the 1A up, 1B down, 2A down, 2B up would fit equally well into this binding pocket upside down. Also, any of the target molecules can bind with half of the binding pocket, leaving the non-complementary end either dangling or only loosely bound. The researchers get around these two problems using their error-correction scheme. It turns out that the correct target molecules bind more tightly to their complements than the incorrect ones. By heating the devices slightly, the researchers can dissociate the incorrect binding while keeping the correct binding intact. This is, I believe, what was meant by the phrase '100% accuracy.' So, in short, it's still exciting research, at least from my point of view, but no one's moving individual atoms with 100% accuracy or any of the hyper-exaggerated nonsense that I've been reading here.
I Don't Believe It (Score:3, Interesting)
I don't believe that there's such a thing as "100%" of anything happening at atomic scale. "100%" is what "99.9999999999999%" looks like when things are big enough that you have to drop the precision due to statistical balancing.
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Re:Question: (Score:5, Informative)
Can they make gold?
This device manipulates atoms and molecules, not individual protons and neutrons within the nucleus of an atom. So no, it can't make gold out of another element. You can do that with nuclear reactions if you want to live the alchemists' dream.
It's still really amazing. I wish Feynman had lived to see it.
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OK, so the subatomic components are probably another order of magnitude smaller again, which will take another 50 years of research... Thanks for the explanation!
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Re:Question: (Score:5, Funny)
Gold?
Can they make HP ink?
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Can they make gold?
If they can place atoms with 100% accuracy, could they not then assemble molecules into any chosen configuration?
That wouldn't help you make gold, since gold is an atom, not a compound.
Re:Question: (Score:5, Informative)
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It! Could! Also! Be! Used! To! Replace! All! Those! Exclaimation! Marks! That! You're! Wasting!
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I can assure you that nothing is ever 100%.
and you are 100% certain?
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First, sorry - I did come across as a troll.
It bothers me to see generalized objections like this thrown up in front of a promising technology & line of pursuit, because it may throw up an artificial objection if enough people latch on. I think it's wrong to assume that the people working on this are idiots and won't apply disciplined engineering, testing, etc., as is done other critical systems.
Sure, there is the potential for bad things to happen, but there is also the potential for very, very good th
Exact placement is theoretically possible (Score:2)
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Or the writing was some kind of summery giving a general idea using the common-use term exactly and not exactly to scientific precision.