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Folding Nanosheets To Build Components

timothy posted more than 5 years ago | from the mmmm-microscopic dept.

Robotics 29

Nakeot writes "In the continuing efforts to build faster and smaller components, a group of researchers at MIT have constructed a basic prototype device that folds materials only hundreds of microns across. Mechanical engineer and Associate Professor of Mechanical Engineering George Barbastathis leads the charge into 'nano-origami' machines involving, the article reads, 'a new technique that allows engineers to fold nanoscale materials into simple 3-D structures' (more details available on MIT's page). The group had worked in 2005 with MIT Associate Professor Yang Shao-Horn to build a single-fold nano-capacitor (PDF, or see Google's HTML version), and this work appears to automate their 2005 process. A comment on the posted video appears to suggests this device is not completely automated yet, however. (This should not be confused with Paul Rothemund's slightly-more-ahead DNA-origami technology.)"

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A whole new art form! (3, Funny)

Locke2005 (849178) | more than 5 years ago | (#27004359)

Nano-origami!

Re:A whole new art form! (-1, Offtopic)

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Re:A whole new art form! (1)

omris (1211900) | more than 5 years ago | (#27004755)

I'm such a sucker. I read all the way through it, waiting for come folding punchline. Then I reread it, thinking I had simply missed it the first time through.

My mind could not accept the possibility that that was not farce.

Re:A whole new art form! (1)

agnosticnixie (1481609) | more than 5 years ago | (#27011125)

My mind read this and felt it was one punchline or no.

Re:A whole new art form! (3, Funny)

nobodylocalhost (1343981) | more than 5 years ago | (#27005119)

Yes, but can it run folding@home?

Oh great (2, Funny)

malkir (1031750) | more than 5 years ago | (#27004435)

A technology that will HAVE to be outsourced to Asia...

Re:Oh great (2, Funny)

Slorv (841945) | more than 5 years ago | (#27008795)

Yeah, otherwise the company would fold.

ah (2, Funny)

thermian (1267986) | more than 5 years ago | (#27004443)

But can they fold them more than seven times?

Re:ah (1, Informative)

sakdoctor (1087155) | more than 5 years ago | (#27004503)

A popular belief holds that it is impossible to fold a sheet of paper in half more than 7 times, possibly due to the difficulty of performing even 6 folds. This belief was debunked by then high school student Britney Gallivan who successfully folded a piece of paper 12 times in "Single Direction Folding".[1] However, some argued that the folder should fold in half, turn 90 degrees, then fold in half again, rather than folding the same way.

The television series MythBusters "busted the myth" of the 7 fold limit by folding taped-together sheets in half and turning 90 degrees each time, for a total of 11 folds. The first eight folds were completed by hand, while the rest were completed using both steam rollers and fork lifts. [2][3] This was accomplished using 17 large rolls of paper taped together to form a very large yet relatively thin "sheet."

Properties of various folded materials (1)

Nakeot (1486703) | more than 5 years ago | (#27005401)

Can Gallivan's folding limit equation be applied to a (yet undefined) function to measure the effectiveness of the successful folding of various materials? I would presume that different materials would exhibit different degrees of capacitance, resistance and all those other electricky *tances; different methods of folding (i.e. straight versus halved) may either modify, or be modified by, the material composition.

Re:Properties of various folded materials (1)

CapnStank (1283176) | more than 5 years ago | (#27008083)

Meh, not really. Resistors are a consistent material. Conductors require a gap between two pads to generate potential. Inductors require the wrapping of thin wire around the what-cha-ma-callit to function. If we start talking about diodes and transistors then it gets more technical where + and - materials become involved creation electron channels for current. Having different folds does not really satisfy any of those components besides the resistor...

So... (0)

Anonymous Coward | more than 5 years ago | (#27004541)

How soon till they start to make nanopaper planes? ...or better yet, origami nano pyramids that they give to their researcher friends to play with, and after 3 painstaking hours to do, they lift the edge of the nanopaper and all it says is "you suck."

What about safety? (0)

Anonymous Coward | more than 5 years ago | (#27004613)

Every sheet metal brake now has to prevent your hands from getting to close when operating. Otherwise OSHA will have a fit. We are not even close to nano-prosthetics.

This isn't as "nano" as they make out (4, Interesting)

Wierdy1024 (902573) | more than 5 years ago | (#27005075)

That bit they are folding over is ~500 um (half a mm) - that's easily big enough to see with the human eye, and you could probably fold that over if you were careful with a pin or something. This certainly isn't yet small enough to integrate into IC's and stuff. (or at least if you did you would be limited to a few capacitors per IC). I can see it could possibly be useful for charge pumps on some chips, for example for flash memory erase voltages or LCD drive voltages. Allowing a few reasonably large value capacitors on the die of a chip could mean pins could be eliminated, which reduces cost. Currently many IC's have pins specially for capacitors which could be eliminated with this. It also reduces external circuitry, reducing total device costs.

Re:This isn't as "nano" as they make out (1)

Nakeot (1486703) | more than 5 years ago | (#27005971)

Agreed. In this early stage, though, I think the nanotech industry can be permitted momentary macroses of perspective.

However, if the nanotech sector manages to use magnetics or field manipulation in conjunction with a current in order to induce the fold (with some precision), and can keep the pathways (and the requisite etchers) tiny enough to allow the current to pass, successful micronization of both the assemblers, and the resulting constructions, to the nano level [nanoindustries.com] is foreseeable.

One may keep in mind progress [lanl.gov] (PDF) so far with nanomechanics [lanl.gov] (HTML).

IBM's recent work with atom manipulation [ibm.com] could certainly assist in this endeavor, too.

Re:This isn't as "nano" as they make out (1)

vadim_t (324782) | more than 5 years ago | (#27008163)

Pin not needed. I thought this sounded awfully thick. Wikipedia says:

The thickness of paper is often measured by the caliper, which is typically given in thousandths of an inch[4]. Paper may be between 0.07 millimetres (0.0028 in) and 0.18 millimetres (0.0071 in) thick[5].

Re:This isn't as "nano" as they make out (1)

xouumalperxe (815707) | more than 4 years ago | (#27049121)

Yeah, because it's not 500 um thick. TFA starts with a picture that shows a piece of material that's a bit over 500 um wide, and quite thin compared to its width.

Not quite (0)

Anonymous Coward | more than 5 years ago | (#27005157)

I find it amusing that the scale bar on the picture shows 500um, or .5mm. While small, that is certainly not 'nano'. I hate these MIT press releases, and how slashdot parrots them.

Spooky (1)

Fry-kun (619632) | more than 5 years ago | (#27005199)

If the summary is true, the YouTube comment suggests that a long-since dead Dutch physicist is needed for the process. Hope he's just a catalyst, because otherwise the process is not scalable :P

Amazing potential (3, Interesting)

TropicalCoder (898500) | more than 5 years ago | (#27005439)

The capacitor they created occupied less than 1 square millimetre, but had a capacity of 1.0 uF. Lacking were specifics on break down voltage and on how long they can hold a charge. The micro-capacitor was tested at 0.6 volts and was bi-polar. This research suggests that 5 Farads per gram is a reasonable figure for super capacitors made with carbon electrodes employing sulfuric acid as the electrolyte. Imagine a cluster of these occupying, say, a cubic inch. That could yield thousands of Farads. If the capacitor can hold a charge for a considerable length of time, this indicates a considerable capacity for storing a charge to power small devices, even laptops.

Get the right size? (1)

Cyberia (70947) | more than 5 years ago | (#27005573)

Do they only come in Twin, Super Single and Full? Or do they have Queen and King too? I hope they are fitted... I hate it when they pop off!

Not *nano*, and, why fold??? (3, Interesting)

PaulBu (473180) | more than 5 years ago | (#27005599)

First of all, it is *micro*, not *nano*-anything -- you can see structures "hundreds of microns" across with your bare eyes! :)

Second, why go into the whole folding business, if it is just a single fold (or small number of folds)? Just etch an airbridge in standard microelectronics process and fill it with electrolyte -- I would expect one could achieve much smaller plate-to-plate distances this way.

But other than that, looks cool! :)

Paul B.

Re:Not *nano*, and, why fold??? (1)

quitte (1098453) | more than 5 years ago | (#27016497)

So we take a sheet of paper and use a knife to simulate the etching. Now we fill the resulting gap with glue as an electrolyte. The result still doesn't look at all like two papers glued on top of each other to me.

Re:Not *nano*, and, why fold??? (1)

PaulBu (473180) | more than 5 years ago | (#27017311)

No, you deposit (and pattern and etch) first sheet of metal, then a layer of insulator, then second sheet of metal. There are ways to etch away/remove all or some of insulator from under the second sheet (through patterned holes), forming what some call air-bridges. Then fill the cavity with electrolyte. Put some more insulator on top, rinse, repeat.

Micorelectronics (and MEMS!) fabrication is fun!

Paul B.

Just one question (1)

reboot246 (623534) | more than 5 years ago | (#27005993)

How do you hold nanosheets under your chin when you fold them?

This is ancient (1)

tsa (15680) | more than 5 years ago | (#27008805)

I can't find it right now but I'm quite sure I saw something like this 10 years or more ago already on a micromechanics conference. The improvement MIT made is that they used different materials than silicon.

It isn't real nanotechnology (1)

bradbury (33372) | more than 5 years ago | (#27013997)

For those of you who have been staring at Nanosystems pgs 400-401 for the last 17 years you may still recognize that this is not true molecular nanotechnology, nor will it be until we set our minds to the task. It is fallacy to believe we have to build up to the gold ring -- we should simply go for it!

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