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Gecko Feet Inspire Sticky Tape
Makarand writes "Geckos have the remarkable ability to climb the most smooth surfaces and hang from
glass ceilings with a single toe. Their feet are covered with millions of nanoscopic keratin
hairs that can exert an intermolecular force - called van der Waals force - producing
an adhesive effect on surfaces they walk on. Researchers at Carnegie Mellon have been able to
mimic the
adhesive ability of Gecko feet with a synthetic material that could find applications
in new types of vehicle tires or allowing robots to climb walls. The material is made
by using a mould created by a lithographic process and consists of a flexibile and strong
substrate covered with 100 million nanoscopic hair each centimetre square.
It might take several more years before Gecko tape is made commercially available to the wanna-be Spiderman, but he will have to thank the Gecko for that, not the spider."
but how exactly do you store thousands of geckos with their backs glued to a roll of plastic ?
Do not try to read the dupe, thats impossible. Instead, only try to realize the truth
What truth?
There is no dupe
Unless, of course, you're just being sarcastic, in which case disregard this comment.
argh. Link is here: Gecko tape
There's a nice picture in this version of the article.
Reality is defined by the maddest person in the room
Geckoman, Geckoman
does whatever a Gecko can
sticks to wall, any type
catches thieves just like flies
look out here comes the Geckoman
http://www.nature.com/nsu/020826/020826-2.html
Aug 2002... "Researchers have created two prototype glues after confirming that geckos owe their amazing ability to scamper across ceilings and cling to polished glass solely to many thousands of tiny, spatula-tipped split hairs on their toes.hese bond weakly with the molecules in any surface on which the lizards run.
The scientists, based at the University of California at Berkeley, cast two sets of imitation gecko toe hairs. Their mould was a microfilter with which biologists usually remove bacteria from solutions. They then tipped the hairs with silicon rubber or polyester.
In the lab, both materials adhered as well to most surfaces as the natural wall-crawlers. "
http://dsc.discovery.com/news/briefs/20020826/geck o.html
"Aug. 27 [2002] -- Research into the gravity-defying acts of geckos, which can scale smooth walls in seconds and support their weight by a single toe, has led to a prototype "gecko glue" that one day may help a small robot walk surfaces in spac"
http://www.kuro5hin.org/story/2002/10/18/03840/816
...
"And if it [mass producing synthetic gecko glue] doesn't, we can harvest setae from geckos as they shed their skin and setae every few months. It's not mass-production, but it would provide plenty of setae for the micro-applications."
Oct 18th, 2002
his super long tongue shooter? ;)
I'm sure it would be a big hit with the ladies.
This work actually originates in Bob Full's Polypedal Lab at Berkeley. Check out this SF Chronicle article published in 2000 to find out a little more.
While I have not studied the domestic gecho, I can already see an application releasing existing things we have from postit notes (you can't really clean them) to velcro. Not to speak of velvet padding based on the gecho material to help anchor something in the event of earthquake... this fall under the catagory of cool beans.
Presently, with the exception of that 3m postit stuff, the only thing we have close to a reuseable adheasive that I know about is spray glue. Per the instructions on the can you apply, let dry, and it in theory stays sticky. As long as you don't mind running the risk of having green goo stuck to places. Double stick tape is also a current product i've used to mount stuff with the intent of having it removable. It's only a soso solution.
I'd be hip to a gecho solution.
There is no sanctuary. There is no sanctuary. SHUT UP! There is no shut up. There is no shut up.
The article fails to mention that the forces were named for Johannes Diderik van der Waals (1837-1923), professor in Amsterdam, who explained a variety of unexplained phenomena observed by others relating to pressure, volume, and temperature of gases and liquids with these two forces.
Tire design is not as easy, Gecko tires would most likely stick to dirt, not the road. It would be like braking on ball bearings.
Unless you attach a lint roller on the top of each tire to pick up the dirt...
Seriously, my rock climbing shoes use sticky rubber and if I walk on sand or dirt I have to clean the shoes before I climb.
kiravuo
sorry, but you're wrong. Hydrogen bonds are a special form of van der Waals 'bonding' which happen to be much, much stronger (as the original poster pointed out) and so they get a special name. A hydrogen bond is usually considered to be when a hydrogen atom is bonded to either N (itrogen), O (xygen) or F (luorine). F is a bit of a special case since it is so electronegative that it forms a much stronger polarisation than either O or N and it forms very, very reactcive bonds - it's why hydrofluoric acid (HF) is so dangerous.
.
H-bonds do not bond H to H, they cause a (part of) a bond to become polarised (the electrons are effectively dragged away from the H atom), creating a very strong van der Waals force.
Van der Waals force works between any two reasonably flat surfaces
van der Waals forces work between [bonded] atoms. A surface just has a larger area so you get more bonds in "action", hence a larger force of adhesion.
and any surface is flat on a small enough scale, which is what this tape is exploiting.
no, completely wrong - the smaller the scale, the rougher the surface. That's why surface roughness (Ra, Rs, cla) measurements are all standardised to a certain length
The gecko exploits the fact that it has a high surface contact area to mass ratio (look at the size of the pads on the feet to it's body size).
"Because it's there." - George Mallory, when asked why he wanted to climb Mt Everest, March 18, 1923 (New York Times)