Towards a Spiderman Suit: Large Invisible Cables and Self-cleaning Releasable Superadhesive Materials

Newswise — IOP Publishing is pleased to announce the online publication of "Towards a Spiderman suit: large invisible cables and self-cleaning releasable superadhesive materials" in the widely-respected Journal of Physics: Condensed Matter (http://www.iop.org/EJ/journal/JPhysCM). The article states that physicists have found the formula for a Spiderman suit that will allow humans to stick to surfaces using the natural form of adhesion used by spiders and geckos.

Only recently has man come to understand how spiders and geckos effortlessly scuttle up walls and hang from ceilings, but it was doubted that this natural form of adhesion would ever be strong enough to hold the weight of real life Peter Parkers.

Recent research concluded that van der Waals forces " the weak attraction that molecules have for each other when they are brought very close together - are responsible for creepy crawlies' amazing sticking power. It is the tiny hairs on spiders' feet that attract to the molecules of surfaces, even glass, and keep them steady.

This discovery however has been taken one step further by research published today, in IOP Publishing's Journal of Physics: Condensed Matter to make sticky human suits.

The article is available online at the following link: http://herald.iop.org/m2/terri/bb/link/961.

Professor Nicola Pugno, of Polytechnic of Turin, Italy, has formulated a hierarchy of adhesive forces that will be strong enough to suspend a person's full body weight against a wall or on a ceiling, while also being easy to detach.

Carbon nanotube-based technology could be used to develop nano-molecular hooks and loops that would function like microscopic velcro. This detachable, adhesive force could be used in conjunction with van der Waals forces and capillary adhesion.

Pugno stated, "There are many interesting applications for our theory, from space exploration and defense, to designing gloves and shoes for window cleaners of big skyscrapers."

The theory is all the more significant because, as with spiders' and geckos' feet, the hooks and hairs are self-cleaning and water-resistant. This means that they will not wear or get clogged by bad weather or dirty surfaces and will be able to withstand some of the harshest habitats on earth, including the deep sea.

Pugno continued, "With the idea for the adhesion now in place, there are a number of other mechanics that need addressing before the Spiderman suit can become a reality. Size-effects on the adhesion strength require further research. Moreover, man's muscles, for example, are different to those of a gecko. We would suffer great muscle fatigue if we tried to stick to a wall for many hours. However now that we are this step closer, it may not be long before we are seeing people climbing up the Empire State Building with nothing but sticky shoes and gloves to support them."

Journal of Physics: Condensed Matter is the definitive source of topical information in the field of condensed matter research. The journal covers all of condensed matter physics including soft condensed matter and nanostructures, plus experimental, theoretical and simulation studies. To learn more about Journal of Physics: Condensed Matter please visit, http://www.iop.org/EJ/jpcm or contact Terri Morhaleck at 215-627-0880 or email to [email protected].

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